Solver-Ausgabe ANSYS Academic Teaching Introductory *------------------------------------------------------------------* | | | W E L C O M E T O T H E A N S Y S (R) P R O G R A M | | | *------------------------------------------------------------------* *************************************************************** * ANSYS Release 18.2 LEGAL NOTICES * *************************************************************** * * * Copyright 2017 SAS IP, Inc. 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The software products and documentation may be * * used, disclosed, transferred, or copied only in accordance * * with the terms and conditions of that software license * * agreement. * * * * ANSYS, Inc. is a UL registered * * ISO 9001:2008 company. * * * *************************************************************** * * * This product is subject to U.S. laws governing export and * * re-export. * * * * For U.S. Government users, except as specifically granted * * by the ANSYS, Inc. software license agreement, the use, * * duplication, or disclosure by the United States Government * * is subject to restrictions stated in the ANSYS, Inc. * * software license agreement and FAR 12.212 (for non-DOD * * licenses). * * * *************************************************************** Release 18.2 Point Releases and Patches installed: ANSYS Academic Student Release 18.2 ***** ANSYS COMMAND LINE ARGUMENTS ***** BATCH MODE REQUESTED (-b) = NOLIST INPUT FILE COPY MODE (-c) = COPY DISTRIBUTED MEMORY PARALLEL REQUESTED 2 PARALLEL PROCESSES REQUESTED WITH SINGLE THREAD PER PROCESS TOTAL OF 2 CORES REQUESTED DESIGNXPLORER REQUESTED MPI OPTION = INTELMPI INPUT FILE NAME = C:\Users\hanna\Documents\Studium\KIT Master\4_Masterarbeit\3_Modellierung\Ansys\_ProjectScratch\Scr20A1\dummy.dat OUTPUT FILE NAME = C:\Users\hanna\Documents\Studium\KIT Master\4_Masterarbeit\3_Modellierung\Ansys\_ProjectScratch\Scr20A1\solve.out START-UP FILE MODE = NOREAD STOP FILE MODE = NOREAD RELEASE= Release 18.2 BUILD= 18.2 UP20170726 VERSION=WINDOWS x64 CURRENT JOBNAME=file0 09:18:10 MAR 21, 2018 CP= 0.078 PARAMETER _DS_PROGRESS = 999.0000000 /INPUT FILE= ds.dat LINE= 0 *** NOTE *** CP = 0.156 TIME= 09:18:10 The /CONFIG,NOELDB command is not valid in a Distributed ANSYS solution. Command is ignored. *GET _WALLSTRT FROM ACTI ITEM=TIME WALL VALUE= 9.30277778 TITLE= Parameterstudie 2--Statisch-mechanisch (AB5) SET PARAMETER DIMENSIONS ON _WB_PROJECTSCRATCH_DIR TYPE=STRI DIMENSIONS= 248 1 1 PARAMETER _WB_PROJECTSCRATCH_DIR(1) = C:\Users\hanna\Documents\Studium\KIT Master\4_Masterarbeit\3_Modellierung\Ansys\_ProjectScratch\Scr20A1\ SET PARAMETER DIMENSIONS ON _WB_SOLVERFILES_DIR TYPE=STRI DIMENSIONS= 248 1 1 PARAMETER _WB_SOLVERFILES_DIR(1) = C:\Users\hanna\Documents\Studium\KIT Master\4_Masterarbeit\3_Modellierung\Ansys\Parameterstudie 2_files\dp0\SYS-44\MECH\ SET PARAMETER DIMENSIONS ON _WB_USERFILES_DIR TYPE=STRI DIMENSIONS= 248 1 1 PARAMETER _WB_USERFILES_DIR(1) = C:\Users\hanna\Documents\Studium\KIT Master\4_Masterarbeit\3_Modellierung\Ansys\Parameterstudie 2_files\user_files\ --- Data in consistent NMM units. See Solving Units in the help system for more MPA UNITS SPECIFIED FOR INTERNAL LENGTH = MILLIMETERS (mm) MASS = TONNE (Mg) TIME = SECONDS (sec) TEMPERATURE = CELSIUS (C) TOFFSET = 273.0 FORCE = NEWTON (N) HEAT = MILLIJOULES (mJ) INPUT UNITS ARE ALSO SET TO MPA *** ANSYS - ENGINEERING ANALYSIS SYSTEM RELEASE Release 18.2 18.2 *** DISTRIBUTED ANSYS Academic Teaching Introductory 01055371 VERSION=WINDOWS x64 09:18:10 MAR 21, 2018 CP= 0.188 Parameterstudie 2--Statisch-mechanisch (AB5) ***** ANSYS ANALYSIS DEFINITION (PREP7) ***** *********** Nodes for the whole assembly *********** *********** Nodes for all Remote Points *********** *********** Elements for Body 1 "Komponente1\1 Aufstandsfl_che" *********** *********** Elements for Body 2 "Komponente1\1 Kontaktfl_che rechts" ********** *********** Elements for Body 3 "Komponente1\1 L_ngslage" *********** *********** Elements for Body 4 "Komponente2\2 Aufstandsfl_che" *********** *********** Elements for Body 5 "Komponente2\2 Kontaktfl_che links" *********** *********** Elements for Body 6 "Komponente2\2 Kontaktfl_che rechts" ********** *********** Elements for Body 7 "Komponente2\2 L_ngslage" *********** *********** Elements for Body 8 "Komponente2\2 Querlage" *********** *********** Elements for Body 9 "Komponente3\3 Aufstandsfl_che" *********** *********** Elements for Body 10 "Komponente3\3 Kontaktfl_che links" ********** *********** Elements for Body 11 "Komponente3\3 Kontaktfl_che rechts" ********* *********** Elements for Body 12 "Komponente3\3 L_ngslage" *********** *********** Elements for Body 13 "Komponente3\3 Querlage" *********** *********** Elements for Body 14 "Komponente4\4 Aufstandsfl_che" *********** *********** Elements for Body 15 "Komponente4\4 Kontaktfl_che links" ********** *********** Elements for Body 16 "Komponente4\4 L_ngslage" *********** *********** Elements for Body 17 "Komponente1\1 Querlage" *********** *********** Elements for Body 18 "Komponente4\4 Querlage" *********** *********** Send User Defined Coordinate System(s) *********** *********** Set Reference Temperature *********** *********** Send Materials *********** *********** Create Contact "Verbund - Komponente1\1 Kontaktfläche rechts bis Ko Real Constant Set For Above Contact Is 20 & 19 *********** Create Contact "Verbund - Komponente1\1 Längslage bis Komponente1\1 Real Constant Set For Above Contact Is 22 & 21 *********** Create Contact "Verbund - Komponente1\1 Querlage bis Komponente1\1 Real Constant Set For Above Contact Is 24 & 23 *********** Create Contact "Verbund - Komponente1\1 Längslage bis Komponente1\1 Real Constant Set For Above Contact Is 26 & 25 *********** Create Contact "Verbund - Komponente1\1 Querlage bis Komponente1\1 Real Constant Set For Above Contact Is 28 & 27 *********** Create Contact "Reibungsbehaftet - Komponente1\1 Kontaktfläche rech Real Constant Set For Above Contact Is 30 & 29 *********** Create Contact "Verbund - Komponente1\1 Längslage bis Komponente1\1 Real Constant Set For Above Contact Is 32 & 31 *********** Create Contact "Verbund - Komponente2\2 Kontaktfläche links bis Kom Real Constant Set For Above Contact Is 34 & 33 *********** Create Contact "Verbund - Komponente2\2 Kontaktfläche rechts bis Ko Real Constant Set For Above Contact Is 36 & 35 *********** Create Contact "Verbund - Komponente2\2 Längslage bis Komponente2\2 Real Constant Set For Above Contact Is 38 & 37 *********** Create Contact "Verbund - Komponente2\2 Querlage bis Komponente2\2 Real Constant Set For Above Contact Is 40 & 39 *********** Create Contact "Verbund - Komponente2\2 Längslage bis Komponente2\2 Real Constant Set For Above Contact Is 42 & 41 *********** Create Contact "Verbund - Komponente2\2 Querlage bis Komponente2\2 Real Constant Set For Above Contact Is 44 & 43 *********** Create Contact "Verbund - Komponente2\2 Längslage bis Komponente2\2 Real Constant Set For Above Contact Is 46 & 45 *********** Create Contact "Verbund - Komponente2\2 Querlage bis Komponente2\2 Real Constant Set For Above Contact Is 48 & 47 *********** Create Contact "Reibungsbehaftet - Komponente2\2 Kontaktfläche rech Real Constant Set For Above Contact Is 50 & 49 *********** Create Contact "Verbund - Komponente2\2 Längslage bis Komponente2\2 Real Constant Set For Above Contact Is 52 & 51 *********** Create Contact "Verbund - Komponente3\3 Kontaktfläche links bis Kom Real Constant Set For Above Contact Is 54 & 53 *********** Create Contact "Verbund - Komponente3\3 Kontaktfläche rechts bis Ko Real Constant Set For Above Contact Is 56 & 55 *********** Create Contact "Verbund - Komponente3\3 Längslage bis Komponente3\3 Real Constant Set For Above Contact Is 58 & 57 *********** Create Contact "Verbund - Komponente3\3 Querlage bis Komponente3\3 Real Constant Set For Above Contact Is 60 & 59 *********** Create Contact "Verbund - Komponente3\3 Längslage bis Komponente3\3 Real Constant Set For Above Contact Is 62 & 61 *********** Create Contact "Verbund - Komponente3\3 Querlage bis Komponente3\3 Real Constant Set For Above Contact Is 64 & 63 *********** Create Contact "Verbund - Komponente3\3 Längslage bis Komponente3\3 Real Constant Set For Above Contact Is 66 & 65 *********** Create Contact "Verbund - Komponente3\3 Querlage bis Komponente3\3 Real Constant Set For Above Contact Is 68 & 67 *********** Create Contact "Reibungsbehaftet - Komponente3\3 Kontaktfläche rech Real Constant Set For Above Contact Is 70 & 69 *********** Create Contact "Verbund - Komponente3\3 Längslage bis Komponente3\3 Real Constant Set For Above Contact Is 72 & 71 *********** Create Contact "Verbund - Komponente4\4 Kontaktfläche links bis Kom Real Constant Set For Above Contact Is 74 & 73 *********** Create Contact "Verbund - Komponente4\4 Längslage bis Komponente4\4 Real Constant Set For Above Contact Is 76 & 75 *********** Create Contact "Verbund - Komponente4\4 Querlage bis Komponente4\4 Real Constant Set For Above Contact Is 78 & 77 *********** Create Contact "Verbund - Komponente4\4 Längslage bis Komponente4\4 Real Constant Set For Above Contact Is 80 & 79 *********** Create Contact "Verbund - Komponente4\4 Querlage bis Komponente4\4 Real Constant Set For Above Contact Is 82 & 81 *********** Create Contact "Verbund - Komponente4\4 Längslage bis Komponente4\4 Real Constant Set For Above Contact Is 84 & 83 ********* Frictionless Supports Z ********* ******* Constant Zero Displacement Z ******* *********** Define Force Using Surface Effect Elements *********** *********** Create Remote Point "Externer Punkt (intern) 2" *********** *********** Create Remote Point "Externer Punkt (intern) 4" *********** *********** Create Remote Point "Externer Punkt (intern) 6" *********** *********** Create Remote Point "Externer Punkt (intern) 8" *********** *********** Create Remote Point "Externer Punkt (intern) 10" *********** *********** Create Remote Point "Externer Punkt (intern) 12" *********** *********** Create Remote Point "Externer Punkt (intern) 14" *********** *********** Create Remote Point "Externer Punkt (intern) 16" *********** *********** Create Remote Point "Externer Punkt (intern) 17" *********** *********** Create Remote Point "Externer Punkt (intern) 18" *********** *********** Create Remote Point "Externer Punkt (intern) 19" *********** *********** Create Remote Point "Externer Punkt (intern) 20" *********** *********** Create Remote Point "Externer Punkt (intern) 21" *********** *********** Create Remote Point "Externer Punkt (intern) 22" *********** *********** Create Spring Connection "Zuganker 1" *********** Real Constant Set For Above Spring Connection Is 114 *********** Create Spring Connection "Zuganker 2" *********** Real Constant Set For Above Spring Connection Is 115 *********** Create Spring Connection "Zuganker 3" *********** Real Constant Set For Above Spring Connection Is 116 *********** Create Spring Connection "Zuganker 4" *********** Real Constant Set For Above Spring Connection Is 117 *********** Create Spring Connection "Schubanker 1" *********** Real Constant Set For Above Spring Connection Is 118 *********** Create Spring Connection "Schubanker 2" *********** Real Constant Set For Above Spring Connection Is 119 *********** Create Spring Connection "Schubanker 3" *********** Real Constant Set For Above Spring Connection Is 120 *********** Create Spring Connection "Schubanker 4" *********** Real Constant Set For Above Spring Connection Is 121 *********** Create Spring Connection "Schubverbinder 1" *********** Real Constant Set For Above Spring Connection Is 122 *********** Create Spring Connection "Schubverbinder 2" *********** Real Constant Set For Above Spring Connection Is 123 *********** Create Spring Connection "Schubverbinder 3" *********** Real Constant Set For Above Spring Connection Is 124 *** Create a component for all grounded springs *** *********** Send Compression Only Support *********** *********** Send Compression Only Support *********** *********** Send Compression Only Support *********** *********** Send Compression Only Support *********** *********** Construct Weak Springs, Prototype 1 *********** *********** Construct Weak Springs, Prototype 2 *********** *********** Construct Weak Springs, Prototype 3 *********** *********** Construct Weak Springs, Prototype 4 *********** *********** Construct Weak Springs, Prototype 5 *********** *********** Construct Weak Springs, Prototype 6 *********** *********** Construct Weak Springs, Prototype 7 *********** *********** Construct Weak Springs, Prototype 8 *********** *********** Construct Weak Springs, Prototype 9 *********** *********** Construct Weak Springs, Prototype 10 *********** *********** Construct Weak Springs, Prototype 11 *********** *********** Construct Weak Springs, Prototype 12 *********** *********** Construct Weak Springs, Prototype 13 *********** *********** Construct Weak Springs, Prototype 14 *********** *********** Construct Weak Springs, Prototype 15 *********** *********** Construct Weak Springs, Prototype 16 *********** *********** Construct Weak Springs, Prototype 17 *********** *********** Construct Weak Springs, Prototype 18 *********** *********** Create Displacement Tables and Functions ****** ***** ROUTINE COMPLETED ***** CP = 0.406 --- Number of total nodes = 5010 --- Number of contact elements = 5290 --- Number of spring elements = 432 --- Number of bearing elements = 0 --- Number of solid elements = 1718 --- Number of condensed parts = 0 --- Number of total elements = 7469 *GET _WALLBSOL FROM ACTI ITEM=TIME WALL VALUE= 9.30277778 **************************************************************************** ************************* SOLUTION ******************************** **************************************************************************** ***** ANSYS SOLUTION ROUTINE ***** PERFORM A STATIC ANALYSIS THIS WILL BE A NEW ANALYSIS LARGE DEFORMATION ANALYSIS USE SPARSE MATRIX DIRECT SOLVER CONTACT INFORMATION PRINTOUT LEVEL 1 DO NOT COMBINE ELEMENT MATRIX FILES (.emat) AFTER DISTRIBUTED PARALLEL SOLUTION DO NOT COMBINE ELEMENT SAVE DATA FILES (.esav) AFTER DISTRIBUTED PARALLEL SOLUTION NLDIAG: Nonlinear diagnostics CONT option is set to ON. Writing frequency : each ITERATION. DEFINE RESTART CONTROL FOR LOADSTEP LAST AT FREQUENCY OF LAST AND NUMBER FOR OVERWRITE IS 0 DELETE RESTART FILES OF ENDSTEP **************************************************** ******************* SOLVE FOR LS 1 OF 4 **************** SELECT FOR ITEM=TYPE COMPONENT= IN RANGE 85 TO 85 STEP 1 72 ELEMENTS (OF 7469 DEFINED) SELECTED BY ESEL COMMAND. SELECT ALL NODES HAVING ANY ELEMENT IN ELEMENT SET. 160 NODES (OF 5010 DEFINED) SELECTED FROM 72 SELECTED ELEMENTS BY NSLE COMMAND. SPECIFIED SURFACE LOAD PRES FOR ALL SELECTED ELEMENTS LKEY = 1 KVAL = 1 SET ACCORDING TO TABLE PARAMETER = _LOADVARI787X SPECIFIED SURFACE LOAD PRES FOR ALL SELECTED ELEMENTS LKEY = 2 KVAL = 1 SET ACCORDING TO TABLE PARAMETER = _LOADVARI787Y SPECIFIED SURFACE LOAD PRES FOR ALL SELECTED ELEMENTS LKEY = 3 KVAL = 1 SET ACCORDING TO TABLE PARAMETER = _LOADVARI787Z ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 5226 STEP 1 5010 NODES (OF 5010 DEFINED) SELECTED BY NSEL COMMAND. ALL SELECT FOR ITEM=ELEM COMPONENT= IN RANGE 1 TO 7545 STEP 1 7469 ELEMENTS (OF 7469 DEFINED) SELECTED BY ESEL COMMAND. *** Set Displacements *** CMBLOCK read of NODE component _CM789UX_XP completed SELECT COMPONENT _CM789UX_XP SPECIFIED CONSTRAINT UX FOR SELECTED NODES 1 TO 5226 BY 1 SET ACCORDING TO TABLE PARAMETER = _LOADVARI789XP ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 5226 STEP 1 5010 NODES (OF 5010 DEFINED) SELECTED BY NSEL COMMAND. *** Component For All Non-Zero UX Displacements *** SELECT COMPONENT _CM789UX_XP DEFINITION OF COMPONENT = _DISPNONZEROUX ENTITY=NODE ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 5226 STEP 1 5010 NODES (OF 5010 DEFINED) SELECTED BY NSEL COMMAND. PRINTOUT RESUMED BY /GOP USE AUTOMATIC TIME STEPPING THIS LOAD STEP USE 10 SUBSTEPS INITIALLY THIS LOAD STEP FOR ALL DEGREES OF FREEDOM FOR AUTOMATIC TIME STEPPING: USE 100 SUBSTEPS AS A MAXIMUM USE 10 SUBSTEPS AS A MINIMUM TIME= 1.0000 ERASE THE CURRENT DATABASE OUTPUT CONTROL TABLE. WRITE ALL ITEMS TO THE DATABASE WITH A FREQUENCY OF NONE FOR ALL APPLICABLE ENTITIES WRITE NSOL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL FOR ALL APPLICABLE ENTITIES WRITE RSOL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL FOR ALL APPLICABLE ENTITIES WRITE STRS ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL FOR ALL APPLICABLE ENTITIES WRITE EPEL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL FOR ALL APPLICABLE ENTITIES WRITE EPPL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL FOR ALL APPLICABLE ENTITIES PRINTOUT RESUMED BY /GOP WRITE MISC ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL FOR THE ENTITIES DEFINED BY COMPONENT _ELMISC NONLINEAR STABILIZATION CONTROL: KEY=OFF *GET ANSINTER_ FROM ACTI ITEM=INT VALUE= 0.00000000 *IF ANSINTER_ ( = 0.00000 ) NE 0 ( = 0.00000 ) THEN *ENDIF ***** ANSYS SOLVE COMMAND ***** *** WARNING *** CP = 0.469 TIME= 09:18:10 Element shape checking is currently inactive. Issue SHPP,ON or SHPP,WARN to reactivate, if desired. *** NOTE *** CP = 0.500 TIME= 09:18:10 The model data was checked and warning messages were found. Please review output or errors file ( C:\Users\hanna\Documents\Studium\KIT Master\4_Masterarbeit\3_Modellierung\Ansys\_ProjectScratch\Scr20A1\file e0.err ) for these warning messages. *** SELECTION OF ELEMENT TECHNOLOGIES FOR APPLICABLE ELEMENTS *** --- GIVE SUGGESTIONS AND RESET THE KEY OPTIONS --- ELEMENT TYPE 1 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY AND POISSON'S RATIO IS NOT GREATER THAN 0.49. KEYOPT(2)=3 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 3 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 2 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY AND POISSON'S RATIO IS NOT GREATER THAN 0.49. KEYOPT(2)=3 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 3 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 3 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY BUT MATERIALS ARE ANISOTROPIC. KEYOPT(2)=2 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 2 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 4 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY AND POISSON'S RATIO IS NOT GREATER THAN 0.49. KEYOPT(2)=3 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 3 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 5 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY AND POISSON'S RATIO IS NOT GREATER THAN 0.49. KEYOPT(2)=3 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 3 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 6 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY AND POISSON'S RATIO IS NOT GREATER THAN 0.49. KEYOPT(2)=3 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 3 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 7 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY BUT MATERIALS ARE ANISOTROPIC. KEYOPT(2)=2 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 2 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 8 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY BUT MATERIALS ARE ANISOTROPIC. KEYOPT(2)=2 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 2 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 9 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY AND POISSON'S RATIO IS NOT GREATER THAN 0.49. KEYOPT(2)=3 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 3 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 10 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY AND POISSON'S RATIO IS NOT GREATER THAN 0.49. KEYOPT(2)=3 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 3 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 11 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY AND POISSON'S RATIO IS NOT GREATER THAN 0.49. KEYOPT(2)=3 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 3 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 12 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY BUT MATERIALS ARE ANISOTROPIC. KEYOPT(2)=2 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 2 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 13 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY BUT MATERIALS ARE ANISOTROPIC. KEYOPT(2)=2 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 2 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 14 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY AND POISSON'S RATIO IS NOT GREATER THAN 0.49. KEYOPT(2)=3 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 3 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 15 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY AND POISSON'S RATIO IS NOT GREATER THAN 0.49. KEYOPT(2)=3 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 3 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 16 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY BUT MATERIALS ARE ANISOTROPIC. KEYOPT(2)=2 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 2 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 17 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY BUT MATERIALS ARE ANISOTROPIC. KEYOPT(2)=2 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 2 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 18 IS SOLID185. IT IS ASSOCIATED WITH LINEAR MATERIALS ONLY BUT MATERIALS ARE ANISOTROPIC. KEYOPT(2)=2 IS SUGGESTED AND HAS BEEN RESET. KEYOPT(1-12)= 0 2 0 0 0 0 0 0 0 0 0 0 *** ANSYS - ENGINEERING ANALYSIS SYSTEM RELEASE Release 18.2 18.2 *** DISTRIBUTED ANSYS Academic Teaching Introductory 01055371 VERSION=WINDOWS x64 09:18:10 MAR 21, 2018 CP= 0.500 Parameterstudie 2--Statisch-mechanisch (AB5) S O L U T I O N O P T I O N S PROBLEM DIMENSIONALITY. . . . . . . . . . . . .3-D DEGREES OF FREEDOM. . . . . . UX UY UZ ROTX ROTY ROTZ ANALYSIS TYPE . . . . . . . . . . . . . . . . .STATIC (STEADY-STATE) OFFSET TEMPERATURE FROM ABSOLUTE ZERO . . . . . 273.15 NONLINEAR GEOMETRIC EFFECTS . . . . . . . . . .ON EQUATION SOLVER OPTION. . . . . . . . . . . . .SPARSE NEWTON-RAPHSON OPTION . . . . . . . . . . . . .PROGRAM CHOSEN GLOBALLY ASSEMBLED MATRIX . . . . . . . . . . .SYMMETRIC *** NOTE *** CP = 0.500 TIME= 09:18:10 Poisson's ratio PR input has been converted to NU input. *** WARNING *** CP = 0.500 TIME= 09:18:10 Material number 114 (used by element 1795 ) should normally have at least one MP or one TB type command associated with it. Output of energy by material may not be available. *** NOTE *** CP = 0.531 TIME= 09:18:10 The step data was checked and warning messages were found. Please review output or errors file ( C:\Users\hanna\Documents\Studium\KIT Master\4_Masterarbeit\3_Modellierung\Ansys\_ProjectScratch\Scr20A1\file e0.err ) for these warning messages. *** NOTE *** CP = 0.531 TIME= 09:18:10 This nonlinear analysis defaults to using the full Newton-Raphson solution procedure. This can be modified using the NROPT command. *** NOTE *** CP = 0.562 TIME= 09:18:10 Internal nodes from 5227 to 5244 are created. 18 internal nodes are used for handling degrees of freedom on pilot nodes of rigid target surfaces. *** NOTE *** CP = 0.562 TIME= 09:18:10 Internal nodes from 5227 to 5244 are created. 18 internal nodes are used for handling degrees of freedom on pilot nodes of rigid target surfaces. *WARNING*: Node 1 has been used on different contact pairs (real ID 86 & 94). These two pairs will be merged. Please check the model carefully. *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 19 and contact element type 19 has been set up. The companion pair has real constant set ID 20. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 20 and contact element type 19 has been set up. The companion pair has real constant set ID 19. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 1.136868377E-13 was detected between contact element 1808 and target element 1806. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 21 and contact element type 21 has been set up. The companion pair has real constant set ID 22. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.41752 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 83.504 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 1819 and target element 1866. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 22 and contact element type 21 has been set up. The companion pair has real constant set ID 21. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 1828 and target element 1818. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 23 and contact element type 23 has been set up. The companion pair has real constant set ID 24. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.39442 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 78.885 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 1877 and target element 1924. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 24 and contact element type 23 has been set up. The companion pair has real constant set ID 23. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 25 and contact element type 25 has been set up. The companion pair has real constant set ID 26. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.44402 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 88.804 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 1.136868377E-13 was detected between contact element 1947 and target element 2009. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 26 and contact element type 25 has been set up. The companion pair has real constant set ID 25. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 1968 and target element 1946. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 27 and contact element type 27 has been set up. The companion pair has real constant set ID 28. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.42238 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 84.476 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 1.136868377E-13 was detected between contact element 2031 and target element 2093. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 28 and contact element type 27 has been set up. The companion pair has real constant set ID 27. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 29 and contact element type 29 has been set up. The companion pair has real constant set ID 30. Both pairs should have the same behavior. *WARNING*: ANSYS has found the contact pairs have similar mesh patterns. ANSYS will keep the current pair and deactivate its companion pair. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 1.136868377E-13 was detected between contact element 2115 and target element 2157. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 30 and contact element type 29 has been set up. The companion pair has real constant set ID 29. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 2136 and target element 2094. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 31 and contact element type 31 has been set up. The companion pair has real constant set ID 32. Both pairs should have the same behavior. *WARNING*: ANSYS has found the contact pairs have similar mesh patterns which can cause overconstraint. ANSYS will deactivate the current pair and keep its companion pair. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 337.46 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 4.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.57574 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 115.15 Average contact pair depth 40.000 Default pinball region factor PINB 0.50000 The resulting pinball region 20.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 2367 and target element 2925. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 32 and contact element type 31 has been set up. The companion pair has real constant set ID 31. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 337.46 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 3.4544 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.57574 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 115.15 Average contact pair depth 34.544 Default pinball region factor PINB 0.50000 The resulting pinball region 17.272 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 2556 and target element 2198. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 33 and contact element type 33 has been set up. The companion pair has real constant set ID 34. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 34 and contact element type 33 has been set up. The companion pair has real constant set ID 33. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 2936 and target element 2934. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 35 and contact element type 35 has been set up. The companion pair has real constant set ID 36. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 36 and contact element type 35 has been set up. The companion pair has real constant set ID 35. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 2.273736754E-13 was detected between contact element 2940 and target element 2938. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 37 and contact element type 37 has been set up. The companion pair has real constant set ID 38. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.41752 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 83.504 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 2951 and target element 2998. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 38 and contact element type 37 has been set up. The companion pair has real constant set ID 37. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 2960 and target element 2950. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 39 and contact element type 39 has been set up. The companion pair has real constant set ID 40. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.39442 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 78.885 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 3009 and target element 3039. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 40 and contact element type 39 has been set up. The companion pair has real constant set ID 39. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 41 and contact element type 41 has been set up. The companion pair has real constant set ID 42. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.44402 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 88.804 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 3079 and target element 3121. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 42 and contact element type 41 has been set up. The companion pair has real constant set ID 41. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 2.273736754E-13 was detected between contact element 3100 and target element 3058. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 43 and contact element type 43 has been set up. The companion pair has real constant set ID 44. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.42238 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 84.476 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 3163 and target element 3225. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 44 and contact element type 43 has been set up. The companion pair has real constant set ID 43. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 45 and contact element type 45 has been set up. The companion pair has real constant set ID 46. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.44402 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 88.804 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 2.273736754E-13 was detected between contact element 3247 and target element 3289. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 46 and contact element type 45 has been set up. The companion pair has real constant set ID 45. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 3268 and target element 3226. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 47 and contact element type 47 has been set up. The companion pair has real constant set ID 48. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.42238 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 84.476 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 2.273736754E-13 was detected between contact element 3331 and target element 3393. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 48 and contact element type 47 has been set up. The companion pair has real constant set ID 47. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 49 and contact element type 49 has been set up. The companion pair has real constant set ID 50. Both pairs should have the same behavior. *WARNING*: ANSYS has found the contact pairs have similar mesh patterns. ANSYS will keep the current pair and deactivate its companion pair. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 2.273736754E-13 was detected between contact element 3415 and target element 3477. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 50 and contact element type 49 has been set up. The companion pair has real constant set ID 49. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 3436 and target element 3414. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 51 and contact element type 51 has been set up. The companion pair has real constant set ID 52. Both pairs should have the same behavior. *WARNING*: ANSYS has found the contact pairs have similar mesh patterns which can cause overconstraint. ANSYS will deactivate the current pair and keep its companion pair. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 337.46 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 4.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.57574 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 115.15 Average contact pair depth 40.000 Default pinball region factor PINB 0.50000 The resulting pinball region 20.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 3667 and target element 4065. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 52 and contact element type 51 has been set up. The companion pair has real constant set ID 51. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 337.46 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 3.4544 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.57574 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 115.15 Average contact pair depth 34.544 Default pinball region factor PINB 0.50000 The resulting pinball region 17.272 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 3856 and target element 3498. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 53 and contact element type 53 has been set up. The companion pair has real constant set ID 54. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 54 and contact element type 53 has been set up. The companion pair has real constant set ID 53. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4236 and target element 4234. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 55 and contact element type 55 has been set up. The companion pair has real constant set ID 56. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 56 and contact element type 55 has been set up. The companion pair has real constant set ID 55. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4240 and target element 4238. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 57 and contact element type 57 has been set up. The companion pair has real constant set ID 58. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.41752 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 83.504 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4251 and target element 4298. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 58 and contact element type 57 has been set up. The companion pair has real constant set ID 57. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4260 and target element 4250. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 59 and contact element type 59 has been set up. The companion pair has real constant set ID 60. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.39442 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 78.885 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4309 and target element 4339. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 60 and contact element type 59 has been set up. The companion pair has real constant set ID 59. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 61 and contact element type 61 has been set up. The companion pair has real constant set ID 62. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.44402 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 88.804 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4379 and target element 4421. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 62 and contact element type 61 has been set up. The companion pair has real constant set ID 61. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 4.547473509E-13 was detected between contact element 4400 and target element 4358. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 63 and contact element type 63 has been set up. The companion pair has real constant set ID 64. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.42238 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 84.476 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4463 and target element 4525. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 64 and contact element type 63 has been set up. The companion pair has real constant set ID 63. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 65 and contact element type 65 has been set up. The companion pair has real constant set ID 66. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.44402 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 88.804 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4547 and target element 4609. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 66 and contact element type 65 has been set up. The companion pair has real constant set ID 65. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4568 and target element 4546. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 67 and contact element type 67 has been set up. The companion pair has real constant set ID 68. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.42238 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 84.476 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4631 and target element 4673. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 68 and contact element type 67 has been set up. The companion pair has real constant set ID 67. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 69 and contact element type 69 has been set up. The companion pair has real constant set ID 70. Both pairs should have the same behavior. *WARNING*: ANSYS has found the contact pairs have similar mesh patterns. ANSYS will keep the current pair and deactivate its companion pair. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4715 and target element 4757. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 70 and contact element type 69 has been set up. The companion pair has real constant set ID 69. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4736 and target element 4694. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 71 and contact element type 71 has been set up. The companion pair has real constant set ID 72. Both pairs should have the same behavior. *WARNING*: ANSYS has found the contact pairs have similar mesh patterns which can cause overconstraint. ANSYS will deactivate the current pair and keep its companion pair. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 337.46 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 4.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.57574 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 115.15 Average contact pair depth 40.000 Default pinball region factor PINB 0.50000 The resulting pinball region 20.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4967 and target element 5365. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 72 and contact element type 71 has been set up. The companion pair has real constant set ID 71. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 337.46 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 3.4544 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.57574 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 115.15 Average contact pair depth 34.544 Default pinball region factor PINB 0.50000 The resulting pinball region 17.272 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 5156 and target element 4798. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 73 and contact element type 73 has been set up. The companion pair has real constant set ID 74. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 74 and contact element type 73 has been set up. The companion pair has real constant set ID 73. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 4.547473509E-13 was detected between contact element 5536 and target element 5534. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 75 and contact element type 75 has been set up. The companion pair has real constant set ID 76. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.41752 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 83.504 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 5547 and target element 5594. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 76 and contact element type 75 has been set up. The companion pair has real constant set ID 75. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 5556 and target element 5546. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 77 and contact element type 77 has been set up. The companion pair has real constant set ID 78. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.39442 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 78.885 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 5605 and target element 5653. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 78 and contact element type 77 has been set up. The companion pair has real constant set ID 77. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 79 and contact element type 79 has been set up. The companion pair has real constant set ID 80. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.44402 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 88.804 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 4.547473509E-13 was detected between contact element 5675 and target element 5717. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 80 and contact element type 79 has been set up. The companion pair has real constant set ID 79. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 5696 and target element 5654. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 81 and contact element type 81 has been set up. The companion pair has real constant set ID 82. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.42238 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 84.476 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 4.547473509E-13 was detected between contact element 5759 and target element 5821. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 82 and contact element type 81 has been set up. The companion pair has real constant set ID 81. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 83 and contact element type 83 has been set up. The companion pair has real constant set ID 84. Both pairs should have the same behavior. *WARNING*: ANSYS has found the contact pairs have similar mesh patterns which can cause overconstraint. ANSYS will deactivate the current pair and keep its companion pair. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 337.46 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 4.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.57574 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 115.15 Average contact pair depth 40.000 Default pinball region factor PINB 0.50000 The resulting pinball region 20.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 6011 and target element 6557. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 84 and contact element type 83 has been set up. The companion pair has real constant set ID 83. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 337.46 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 3.4544 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.57574 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 115.15 Average contact pair depth 34.544 Default pinball region factor PINB 0.50000 The resulting pinball region 17.272 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 6200 and target element 5990. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 86 and contact element type 86 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4602 which connects to other element 1795. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 94. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 22). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 88 and contact element type 88 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4604 which connects to other element 1796. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 96. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 274). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 90 and contact element type 90 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4606 which connects to other element 1797. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 98. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 190). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 92 and contact element type 92 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4608 which connects to other element 1798. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 100. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 106). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 94 and contact element type 94 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4610 which connects to other element 1799. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 86. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 22). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 96 and contact element type 96 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4612 which connects to other element 1800. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 88. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 274). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 98 and contact element type 98 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4614 which connects to other element 1801. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 90. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 190). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 100 and contact element type 100 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4616 which connects to other element 1802. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 92. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 106). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 102 and contact element type 102 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4617 which connects to other element 1803. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 489). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 104 and contact element type 104 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4618 which connects to other element 1803. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 1568). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 106 and contact element type 106 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4619 which connects to other element 1804. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 1414). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 108 and contact element type 108 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4620 which connects to other element 1804. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 2184). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 110 and contact element type 110 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4621 which connects to other element 1805. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 401). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 112 and contact element type 112 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4622 which connects to other element 1805. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 2096). **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-deformable contact pair identified by real constant set 125 and contact element type 125 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4665. Please verify constraints on the pilot node which may be automatically fixed by ANSYS. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 0.10000 The resulting initial contact stiffness 0.13333E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Frictionless contact pair is defined *** WARNING *** CP = 0.766 TIME= 09:18:10 It is highly recommended to set KEYOPT(10)=0 (update contact stiffness at each iteration) in order to achieve better convergence. Use constant contact stiffness Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 3.0000 The resulting pinball region 45.000 *WARNING*: Initial penetration is included. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 6950 and target element 6970. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-deformable contact pair identified by real constant set 127 and contact element type 127 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4708. Please verify constraints on the pilot node which may be automatically fixed by ANSYS. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 0.10000 The resulting initial contact stiffness 0.13333E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Frictionless contact pair is defined *WARNING*: It is highly recommended to set KEYOPT(10)=0 (update contact stiffness at each iteration) in order to achieve better convergence. Use constant contact stiffness Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 3.0000 The resulting pinball region 45.000 *WARNING*: Initial penetration is included. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 6991 and target element 7011. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-deformable contact pair identified by real constant set 129 and contact element type 129 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4751. Please verify constraints on the pilot node which may be automatically fixed by ANSYS. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 0.10000 The resulting initial contact stiffness 0.13333E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Frictionless contact pair is defined *WARNING*: It is highly recommended to set KEYOPT(10)=0 (update contact stiffness at each iteration) in order to achieve better convergence. Use constant contact stiffness Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 3.0000 The resulting pinball region 45.000 *WARNING*: Initial penetration is included. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 7032 and target element 7052. **************************************** *** NOTE *** CP = 0.766 TIME= 09:18:10 Rigid-deformable contact pair identified by real constant set 131 and contact element type 131 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4794. Please verify constraints on the pilot node which may be automatically fixed by ANSYS. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 0.10000 The resulting initial contact stiffness 0.13333E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Frictionless contact pair is defined *WARNING*: It is highly recommended to set KEYOPT(10)=0 (update contact stiffness at each iteration) in order to achieve better convergence. Use constant contact stiffness Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 3.0000 The resulting pinball region 45.000 *WARNING*: Initial penetration is included. *** NOTE *** CP = 0.766 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 7073 and target element 7093. **************************************** *** WARNING *** CP = 0.766 TIME= 09:18:10 Overconstraint may occur for Lagrange multiplier or MPC based contact algorithm. The reasons for possible overconstraint are: *** WARNING *** CP = 0.766 TIME= 09:18:10 Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 2096). **************************************** *** NOTE *** CP = 0.797 TIME= 09:18:10 Internal nodes from 5227 to 5244 are created. 18 internal nodes are used for handling degrees of freedom on pilot nodes of rigid target surfaces. D I S T R I B U T E D D O M A I N D E C O M P O S E R ...Number of elements: 7469 ...Number of nodes: 5028 ...Decompose to 2 CPU domains ...Element load balance ratio = 1.068 L O A D S T E P O P T I O N S LOAD STEP NUMBER. . . . . . . . . . . . . . . . 1 TIME AT END OF THE LOAD STEP. . . . . . . . . . 1.0000 AUTOMATIC TIME STEPPING . . . . . . . . . . . . ON INITIAL NUMBER OF SUBSTEPS . . . . . . . . . 10 MAXIMUM NUMBER OF SUBSTEPS . . . . . . . . . 100 MINIMUM NUMBER OF SUBSTEPS . . . . . . . . . 10 MAXIMUM NUMBER OF EQUILIBRIUM ITERATIONS. . . . 15 STEP CHANGE BOUNDARY CONDITIONS . . . . . . . . NO STRESS-STIFFENING . . . . . . . . . . . . . . . ON TERMINATE ANALYSIS IF NOT CONVERGED . . . . . .YES (EXIT) CONVERGENCE CONTROLS. . . . . . . . . . . . . .USE DEFAULTS PRINT OUTPUT CONTROLS . . . . . . . . . . . . .NO PRINTOUT DATABASE OUTPUT CONTROLS ITEM FREQUENCY COMPONENT ALL NONE NSOL ALL RSOL ALL STRS ALL EPEL ALL EPPL ALL MISC ALL _ELMISC SOLUTION MONITORING INFO IS WRITTEN TO FILE= file.mntr *WARNING*: Node 1 has been used on different contact pairs (real ID 86 & 94). These two pairs will be merged. Please check the model carefully. *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 19 and contact element type 19 has been set up. The companion pair has real constant set ID 20. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 20 and contact element type 19 has been set up. The companion pair has real constant set ID 19. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 1.136868377E-13 was detected between contact element 1808 and target element 1806. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 23 and contact element type 23 has been set up. The companion pair has real constant set ID 24. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.39442 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 78.885 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 1877 and target element 1924. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 24 and contact element type 23 has been set up. The companion pair has real constant set ID 23. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 25 and contact element type 25 has been set up. The companion pair has real constant set ID 26. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.44402 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 88.804 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 1.136868377E-13 was detected between contact element 1947 and target element 2009. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 26 and contact element type 25 has been set up. The companion pair has real constant set ID 25. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 1968 and target element 1946. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 27 and contact element type 27 has been set up. The companion pair has real constant set ID 28. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.42238 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 84.476 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 1.136868377E-13 was detected between contact element 2031 and target element 2093. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 28 and contact element type 27 has been set up. The companion pair has real constant set ID 27. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 29 and contact element type 29 has been set up. The companion pair has real constant set ID 30. Both pairs should have the same behavior. *WARNING*: ANSYS has found the contact pairs have similar mesh patterns. ANSYS will keep the current pair and deactivate its companion pair. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 1.136868377E-13 was detected between contact element 2115 and target element 2157. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 30 and contact element type 29 has been set up. The companion pair has real constant set ID 29. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 2136 and target element 2094. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 33 and contact element type 33 has been set up. The companion pair has real constant set ID 34. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 34 and contact element type 33 has been set up. The companion pair has real constant set ID 33. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 2936 and target element 2934. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 35 and contact element type 35 has been set up. The companion pair has real constant set ID 36. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 36 and contact element type 35 has been set up. The companion pair has real constant set ID 35. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 2.273736754E-13 was detected between contact element 2940 and target element 2938. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 41 and contact element type 41 has been set up. The companion pair has real constant set ID 42. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.44402 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 88.804 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 3079 and target element 3121. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 42 and contact element type 41 has been set up. The companion pair has real constant set ID 41. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 2.273736754E-13 was detected between contact element 3100 and target element 3058. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 43 and contact element type 43 has been set up. The companion pair has real constant set ID 44. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.42238 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 84.476 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 3163 and target element 3225. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 44 and contact element type 43 has been set up. The companion pair has real constant set ID 43. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 45 and contact element type 45 has been set up. The companion pair has real constant set ID 46. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.44402 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 88.804 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 2.273736754E-13 was detected between contact element 3247 and target element 3289. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 46 and contact element type 45 has been set up. The companion pair has real constant set ID 45. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 3268 and target element 3226. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 47 and contact element type 47 has been set up. The companion pair has real constant set ID 48. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.42238 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 84.476 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 2.273736754E-13 was detected between contact element 3331 and target element 3393. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 48 and contact element type 47 has been set up. The companion pair has real constant set ID 47. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 49 and contact element type 49 has been set up. The companion pair has real constant set ID 50. Both pairs should have the same behavior. *WARNING*: ANSYS has found the contact pairs have similar mesh patterns. ANSYS will keep the current pair and deactivate its companion pair. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 2.273736754E-13 was detected between contact element 3415 and target element 3477. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 50 and contact element type 49 has been set up. The companion pair has real constant set ID 49. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 3436 and target element 3414. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 53 and contact element type 53 has been set up. The companion pair has real constant set ID 54. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 54 and contact element type 53 has been set up. The companion pair has real constant set ID 53. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4236 and target element 4234. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 55 and contact element type 55 has been set up. The companion pair has real constant set ID 56. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 56 and contact element type 55 has been set up. The companion pair has real constant set ID 55. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4240 and target element 4238. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 57 and contact element type 57 has been set up. The companion pair has real constant set ID 58. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.41752 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 83.504 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4251 and target element 4298. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 58 and contact element type 57 has been set up. The companion pair has real constant set ID 57. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4260 and target element 4250. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 61 and contact element type 61 has been set up. The companion pair has real constant set ID 62. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.44402 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 88.804 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4379 and target element 4421. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 62 and contact element type 61 has been set up. The companion pair has real constant set ID 61. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 4.547473509E-13 was detected between contact element 4400 and target element 4358. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 69 and contact element type 69 has been set up. The companion pair has real constant set ID 70. Both pairs should have the same behavior. *WARNING*: ANSYS has found the contact pairs have similar mesh patterns. ANSYS will keep the current pair and deactivate its companion pair. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4715 and target element 4757. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 70 and contact element type 69 has been set up. The companion pair has real constant set ID 69. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.72992E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Frictionless contact pair is defined Update contact stiffness at each iteration Automatic bisection when contact status change abruptly Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 2.0000 The resulting pinball region 54.800 Auto contact offset used to close gap 0.0000 Initial penetration is excluded. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4736 and target element 4694. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 71 and contact element type 71 has been set up. The companion pair has real constant set ID 72. Both pairs should have the same behavior. *WARNING*: ANSYS has found the contact pairs have similar mesh patterns which can cause overconstraint. ANSYS will deactivate the current pair and keep its companion pair. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 337.46 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 4.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.57574 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 115.15 Average contact pair depth 40.000 Default pinball region factor PINB 0.50000 The resulting pinball region 20.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 4967 and target element 5365. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 72 and contact element type 71 has been set up. The companion pair has real constant set ID 71. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 337.46 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 3.4544 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.57574 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 115.15 Average contact pair depth 34.544 Default pinball region factor PINB 0.50000 The resulting pinball region 17.272 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 5156 and target element 4798. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 73 and contact element type 73 has been set up. The companion pair has real constant set ID 74. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 74 and contact element type 73 has been set up. The companion pair has real constant set ID 73. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 0.40000E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 5.0000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.17681 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 35.362 Average contact pair depth 50.000 Default pinball region factor PINB 0.50000 The resulting pinball region 25.000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 4.547473509E-13 was detected between contact element 5536 and target element 5534. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 75 and contact element type 75 has been set up. The companion pair has real constant set ID 76. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.41752 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 83.504 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 5547 and target element 5594. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 76 and contact element type 75 has been set up. The companion pair has real constant set ID 75. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1889.5 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 5556 and target element 5546. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 77 and contact element type 77 has been set up. The companion pair has real constant set ID 78. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.905 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.39442 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 78.885 Average contact pair depth 119.05 Default pinball region factor PINB 0.50000 The resulting pinball region 59.524 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 5605 and target element 5653. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 78 and contact element type 77 has been set up. The companion pair has real constant set ID 77. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 111.78 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.25000 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 0.50000 The resulting pinball region 7.5000 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 79 and contact element type 79 has been set up. The companion pair has real constant set ID 80. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.44402 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 88.804 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 4.547473509E-13 was detected between contact element 5675 and target element 5717. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 80 and contact element type 79 has been set up. The companion pair has real constant set ID 79. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 121.48 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 5696 and target element 5654. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 81 and contact element type 81 has been set up. The companion pair has real constant set ID 82. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 11.111 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.42238 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 84.476 Average contact pair depth 111.11 Default pinball region factor PINB 0.50000 The resulting pinball region 55.556 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 4.547473509E-13 was detected between contact element 5759 and target element 5821. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Symmetric Deformable- deformable contact pair identified by real constant set 82 and contact element type 81 has been set up. The companion pair has real constant set ID 81. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting initial contact stiffness 1972.8 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.7400 Default opening contact stiffness OPSF will be used. Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip tolerance 0.45667 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 91.334 Average contact pair depth 27.400 Default pinball region factor PINB 0.50000 The resulting pinball region 13.700 Initial penetration/gap is excluded. Bonded contact (always) is defined. *** NOTE *** CP = 1.094 TIME= 09:18:10 No contact was detected for this contact pair. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 86 and contact element type 86 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4602 which connects to other element 1795. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 94. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 22). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 88 and contact element type 88 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4604 which connects to other element 1796. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 96. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 274). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 90 and contact element type 90 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4606 which connects to other element 1797. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 98. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 190). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 92 and contact element type 92 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4608 which connects to other element 1798. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 100. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 106). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 94 and contact element type 94 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4610 which connects to other element 1799. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 86. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 22). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 96 and contact element type 96 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4612 which connects to other element 1800. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 88. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 274). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 98 and contact element type 98 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4614 which connects to other element 1801. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 90. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 190). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 100 and contact element type 100 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4616 which connects to other element 1802. Internal MPC will be built. This pair will be merged with other pair defined by real constant set 92. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 106). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 102 and contact element type 102 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4617 which connects to other element 1803. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 489). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 104 and contact element type 104 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4618 which connects to other element 1803. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 1568). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 106 and contact element type 106 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4619 which connects to other element 1804. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 1414). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 108 and contact element type 108 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4620 which connects to other element 1804. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 2184). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 110 and contact element type 110 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4621 which connects to other element 1805. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 401). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-constraint surface identified by real constant set 112 and contact element type 112 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4622 which connects to other element 1805. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *WARNING*: Boundary conditions, coupling, and/or constraint equations have been applied on certain contact nodes (for example 2096). **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-deformable contact pair identified by real constant set 125 and contact element type 125 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4665. Please verify constraints on the pilot node which may be automatically fixed by ANSYS. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 0.10000 The resulting initial contact stiffness 0.13333E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Frictionless contact pair is defined Use constant contact stiffness Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 3.0000 The resulting pinball region 45.000 *WARNING*: Initial penetration is included. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 6950 and target element 6970. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-deformable contact pair identified by real constant set 127 and contact element type 127 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4708. Please verify constraints on the pilot node which may be automatically fixed by ANSYS. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 0.10000 The resulting initial contact stiffness 0.13333E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Frictionless contact pair is defined Use constant contact stiffness Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 3.0000 The resulting pinball region 45.000 *WARNING*: Initial penetration is included. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 6991 and target element 7011. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-deformable contact pair identified by real constant set 129 and contact element type 129 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4751. Please verify constraints on the pilot node which may be automatically fixed by ANSYS. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 0.10000 The resulting initial contact stiffness 0.13333E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Frictionless contact pair is defined Use constant contact stiffness Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 3.0000 The resulting pinball region 45.000 *WARNING*: Initial penetration is included. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 7032 and target element 7052. **************************************** *** NOTE *** CP = 1.094 TIME= 09:18:10 Rigid-deformable contact pair identified by real constant set 131 and contact element type 131 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 4794. Please verify constraints on the pilot node which may be automatically fixed by ANSYS. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 0.10000 The resulting initial contact stiffness 0.13333E+09 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 1.5000 Frictionless contact pair is defined Use constant contact stiffness Average contact surface length 50.000 Average contact pair depth 15.000 Default pinball region factor PINB 3.0000 The resulting pinball region 45.000 *WARNING*: Initial penetration is included. *** NOTE *** CP = 1.094 TIME= 09:18:10 Max. Initial penetration 0 was detected between contact element 7073 and target element 7093. **************************************** MAXIMUM NUMBER OF EQUILIBRIUM ITERATIONS HAS BEEN MODIFIED TO BE, NEQIT = 26, BY SOLUTION CONTROL LOGIC. *** WARNING *** CP = 1.266 TIME= 09:18:10 Multiple constraints have been applied on degree of freedom 3 of contact node 3. The program will remove certain internal MPCs. Please check the model carefully. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 86 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 88 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 90 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 92 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 102 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 104 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 106 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 108 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 110 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 112 due to overconstraint detection logic. *** WARNING *** CP = 1.688 TIME= 09:18:11 The internal constraint equation 1083 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 1.688 TIME= 09:18:11 The internal constraint equation 1485 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 1.688 TIME= 09:18:11 The internal constraint equation 1749 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 1.688 TIME= 09:18:11 The internal constraint equation 2025 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 1.688 TIME= 09:18:11 The internal constraint equation 2163 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 1.703 TIME= 09:18:11 The internal constraint equation 2565 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. The FEA model contains 0 external CE equations and 1056 internal CE equations. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 Max. Penetration of 0 has been detected between contact element 1808 and target element 1806. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 1808 and target element 1806. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.256325157E-05. Max. Normal stiffness 400000000. Min. Normal stiffness 400000000. Max. Tangential stiffness 42417924.1. Min. Tangential stiffness 42417924.1. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 23 Max. Penetration of 0 has been detected between contact element 1877 and target element 1924. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 10000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 7.831779989E-12. Max. Normal stiffness 111.780478. Min. Normal stiffness 111.780478. Max. Tangential stiffness 12.6518385. Min. Tangential stiffness 12.6518385. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 24 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 25 Max. Penetration of 0 has been detected between contact element 1947 and target element 2009. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 1947 and target element 2009. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555556. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 9.581974812E-12. Max. Normal stiffness 121.48476. Min. Normal stiffness 121.48476. Max. Tangential stiffness 11.4000708. Min. Tangential stiffness 11.4000708. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 26 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 27 Max. Penetration of 0 has been detected between contact element 2031 and target element 2093. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 2031 and target element 2093. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555556. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.480201262E-10. Max. Normal stiffness 1972.82256. Min. Normal stiffness 1972.82256. Max. Tangential stiffness 194.614078. Min. Tangential stiffness 194.614078. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 28 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 29 Max. Penetration of 0 has been detected between contact element 2115 and target element 2157. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 2115 and target element 2157. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 72992434.9. Min. Normal stiffness 72992434.9. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 30 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 33 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 34 Max. Penetration of 0 has been detected between contact element 2936 and target element 2934. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 2936 and target element 2934. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.256325157E-05. Max. Normal stiffness 400000000. Min. Normal stiffness 400000000. Max. Tangential stiffness 42417924.1. Min. Tangential stiffness 42417924.1. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 35 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 36 Max. Penetration of 0 has been detected between contact element 2940 and target element 2938. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 2940 and target element 2938. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.256325157E-05. Max. Normal stiffness 400000000. Min. Normal stiffness 400000000. Max. Tangential stiffness 42417924.1. Min. Tangential stiffness 42417924.1. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 41 Max. Penetration of 0 has been detected between contact element 3079 and target element 3121. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 3079 and target element 3121. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 9.581974821E-12. Max. Normal stiffness 121.48476. Min. Normal stiffness 121.48476. Max. Tangential stiffness 11.4000708. Min. Tangential stiffness 11.4000708. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 42 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 43 Max. Penetration of 0 has been detected between contact element 3163 and target element 3225. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 3163 and target element 3225. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.480201263E-10. Max. Normal stiffness 1972.82257. Min. Normal stiffness 1972.82257. Max. Tangential stiffness 194.614078. Min. Tangential stiffness 194.614078. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 44 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 45 Max. Penetration of 0 has been detected between contact element 3247 and target element 3289. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3247 and target element 3289. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 9.581974821E-12. Max. Normal stiffness 121.48476. Min. Normal stiffness 121.48476. Max. Tangential stiffness 11.4000708. Min. Tangential stiffness 11.4000708. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 46 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 47 Max. Penetration of 0 has been detected between contact element 3331 and target element 3393. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3331 and target element 3393. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.480201263E-10. Max. Normal stiffness 1972.82257. Min. Normal stiffness 1972.82257. Max. Tangential stiffness 194.614078. Min. Tangential stiffness 194.614078. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 48 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 49 Max. Penetration of 0 has been detected between contact element 3415 and target element 3477. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3415 and target element 3477. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 72992434.9. Min. Normal stiffness 72992434.9. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 50 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 53 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 54 Max. Penetration of 0 has been detected between contact element 4236 and target element 4234. Max. Geometrical gap of 4.547473509E-13 has been detected between contact element 4236 and target element 4234. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.256325157E-05. Max. Normal stiffness 400000000. Min. Normal stiffness 400000000. Max. Tangential stiffness 42417924.1. Min. Tangential stiffness 42417924.1. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 55 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 56 Max. Penetration of 0 has been detected between contact element 4240 and target element 4238. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.256325157E-05. Max. Normal stiffness 400000000. Min. Normal stiffness 400000000. Max. Tangential stiffness 42417924.1. Min. Tangential stiffness 42417924.1. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 57 Max. Penetration of 0 has been detected between contact element 4251 and target element 4298. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 40000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 1.401335346E-10. Max. Normal stiffness 1889.45705. Min. Normal stiffness 1889.45705. Max. Tangential stiffness 202.029211. Min. Tangential stiffness 202.029211. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 58 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 61 Max. Penetration of 0 has been detected between contact element 4379 and target element 4421. Max. Geometrical gap of 4.547473509E-13 has been detected between contact element 4379 and target element 4421. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 9.581974821E-12. Max. Normal stiffness 121.48476. Min. Normal stiffness 121.48476. Max. Tangential stiffness 11.4000708. Min. Tangential stiffness 11.4000708. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 62 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 69 Max. Penetration of 0 has been detected between contact element 4715 and target element 4757. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 72992434.9. Min. Normal stiffness 72992434.9. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 70 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 71 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 72 Max. Penetration of 0 has been detected between contact element 5156 and target element 4798. For total 189 contact elements, there are 189 elements are in contact. There are 189 elements are in sticking. Contacting area 2500000. Max. Pinball distance 17.2721651. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 3.451238895E-12. Max. Normal stiffness 33.7457668. Min. Normal stiffness 33.7457668. Max. Tangential stiffness 2.53093251. Min. Tangential stiffness 2.53093251. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 73 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 74 Max. Penetration of 0 has been detected between contact element 5536 and target element 5534. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5536 and target element 5534. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.256325157E-05. Max. Normal stiffness 400000000. Min. Normal stiffness 400000000. Max. Tangential stiffness 42417924.1. Min. Tangential stiffness 42417924.1. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 75 Max. Penetration of 0 has been detected between contact element 5547 and target element 5594. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 40000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 1.401335346E-10. Max. Normal stiffness 1889.45705. Min. Normal stiffness 1889.45705. Max. Tangential stiffness 202.029211. Min. Tangential stiffness 202.029211. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 76 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 77 Max. Penetration of 0 has been detected between contact element 5605 and target element 5653. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 10000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 7.831779989E-12. Max. Normal stiffness 111.780478. Min. Normal stiffness 111.780478. Max. Tangential stiffness 12.6518385. Min. Tangential stiffness 12.6518385. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 78 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 79 Max. Penetration of 0 has been detected between contact element 5675 and target element 5717. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5675 and target element 5717. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 9.581974821E-12. Max. Normal stiffness 121.48476. Min. Normal stiffness 121.48476. Max. Tangential stiffness 11.4000708. Min. Tangential stiffness 11.4000708. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 80 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 81 Max. Penetration of 0 has been detected between contact element 5759 and target element 5821. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5759 and target element 5821. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.480201263E-10. Max. Normal stiffness 1972.82257. Min. Normal stiffness 1972.82257. Max. Tangential stiffness 194.614078. Min. Tangential stiffness 194.614078. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 82 *** NOTE *** CP = 1.906 TIME= 09:18:11 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 125 Max. Penetration of 0 has been detected between contact element 6950 and target element 6970. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 127 Max. Penetration of 0 has been detected between contact element 6991 and target element 7011. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 129 Max. Penetration of 0 has been detected between contact element 7032 and target element 7052. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 131 Max. Penetration of 0 has been detected between contact element 7073 and target element 7093. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* *********** PRECISE MASS SUMMARY *********** TOTAL RIGID BODY MASS MATRIX ABOUT ORIGIN Translational mass | Coupled translational/rotational mass 0.22500 0.0000 0.0000 | 0.0000 5.6250 -281.25 0.0000 0.22500 0.0000 | -5.6250 0.0000 450.68 0.0000 0.0000 0.22500 | 281.25 -450.68 0.0000 ------------------------------------------ | ------------------------------------------ | Rotational mass (inertia) | 0.46894E+06 -0.56334E+06 -11267. | -0.56334E+06 0.12040E+07 -7031.3 | -11267. -7031.3 0.16726E+07 TOTAL MASS = 0.22500 The mass principal axes coincide with the global Cartesian axes CENTER OF MASS (X,Y,Z)= 2003.0 1250.0 25.000 TOTAL INERTIA ABOUT CENTER OF MASS 0.11723E+06 -0.36631E-08 -0.68830E-10 -0.36631E-08 0.30117E+06 -0.62576E-10 -0.68830E-10 -0.62576E-10 0.41831E+06 The inertia principal axes coincide with the global Cartesian axes *** MASS SUMMARY BY ELEMENT TYPE *** TYPE MASS 3 0.450000E-01 7 0.450000E-01 8 0.112500E-01 12 0.450000E-01 13 0.112500E-01 16 0.450000E-01 17 0.112500E-01 18 0.112500E-01 Range of element maximum matrix coefficients in global coordinates Maximum = 7.527777479E+16 at element 7032. Minimum = 4.367569506E-05 at element 7495. *** WARNING *** CP = 1.906 TIME= 09:18:11 Coefficient ratio exceeds 1.0e8 - Check results. *** ELEMENT MATRIX FORMULATION TIMES TYPE NUMBER ENAME TOTAL CP AVE CP 1 20 SOLID185 0.016 0.000781 2 21 SOLID185 0.000 0.000000 3 189 SOLID185 0.016 0.000083 4 20 SOLID185 0.000 0.000000 5 21 SOLID185 0.000 0.000000 6 21 SOLID185 0.000 0.000000 7 189 SOLID185 0.031 0.000165 8 189 SOLID185 0.031 0.000165 9 20 SOLID185 0.000 0.000000 10 21 SOLID185 0.000 0.000000 11 21 SOLID185 0.000 0.000000 12 189 SOLID185 0.016 0.000083 13 189 SOLID185 0.000 0.000000 14 20 SOLID185 0.000 0.000000 15 21 SOLID185 0.000 0.000000 16 189 SOLID185 0.047 0.000248 17 189 SOLID185 0.047 0.000248 18 189 SOLID185 0.016 0.000083 19 2 CONTA174 0.000 0.000000 20 2 TARGE170 0.000 0.000000 21 29 CONTA174 0.000 0.000000 22 29 TARGE170 0.000 0.000000 23 29 CONTA174 0.000 0.000000 24 29 TARGE170 0.000 0.000000 25 42 CONTA174 0.000 0.000000 26 42 TARGE170 0.000 0.000000 27 42 CONTA174 0.000 0.000000 28 42 TARGE170 0.000 0.000000 29 42 CONTA174 0.000 0.000000 30 42 TARGE170 0.000 0.000000 31 378 CONTA174 0.016 0.000041 32 378 TARGE170 0.000 0.000000 33 2 CONTA174 0.000 0.000000 34 2 TARGE170 0.000 0.000000 35 2 CONTA174 0.000 0.000000 36 2 TARGE170 0.000 0.000000 37 29 CONTA174 0.000 0.000000 38 29 TARGE170 0.000 0.000000 39 29 CONTA174 0.000 0.000000 40 29 TARGE170 0.000 0.000000 41 42 CONTA174 0.000 0.000000 42 42 TARGE170 0.000 0.000000 43 42 CONTA174 0.000 0.000000 44 42 TARGE170 0.000 0.000000 45 42 CONTA174 0.000 0.000000 46 42 TARGE170 0.000 0.000000 47 42 CONTA174 0.000 0.000000 48 42 TARGE170 0.000 0.000000 49 42 CONTA174 0.000 0.000000 50 42 TARGE170 0.000 0.000000 51 378 CONTA174 0.016 0.000041 52 378 TARGE170 0.000 0.000000 53 2 CONTA174 0.000 0.000000 54 2 TARGE170 0.000 0.000000 55 2 CONTA174 0.000 0.000000 56 2 TARGE170 0.000 0.000000 57 29 CONTA174 0.000 0.000000 58 29 TARGE170 0.000 0.000000 59 29 CONTA174 0.016 0.000539 60 29 TARGE170 0.000 0.000000 61 42 CONTA174 0.000 0.000000 62 42 TARGE170 0.000 0.000000 63 42 CONTA174 0.000 0.000000 64 42 TARGE170 0.000 0.000000 65 42 CONTA174 0.016 0.000372 66 42 TARGE170 0.000 0.000000 67 42 CONTA174 0.000 0.000000 68 42 TARGE170 0.000 0.000000 69 42 CONTA174 0.000 0.000000 70 42 TARGE170 0.000 0.000000 71 378 CONTA174 0.031 0.000083 72 378 TARGE170 0.000 0.000000 73 2 CONTA174 0.000 0.000000 74 2 TARGE170 0.000 0.000000 75 29 CONTA174 0.000 0.000000 76 29 TARGE170 0.000 0.000000 77 29 CONTA174 0.000 0.000000 78 29 TARGE170 0.000 0.000000 79 42 CONTA174 0.000 0.000000 80 42 TARGE170 0.000 0.000000 81 42 CONTA174 0.000 0.000000 82 42 TARGE170 0.000 0.000000 83 378 CONTA174 0.000 0.000000 84 378 TARGE170 0.000 0.000000 85 72 SURF154 0.000 0.000000 86 20 CONTA174 0.000 0.000000 87 1 TARGE170 0.000 0.000000 88 20 CONTA174 0.000 0.000000 89 1 TARGE170 0.000 0.000000 90 20 CONTA174 0.000 0.000000 91 1 TARGE170 0.000 0.000000 92 20 CONTA174 0.000 0.000000 93 1 TARGE170 0.000 0.000000 94 20 CONTA174 0.000 0.000000 95 1 TARGE170 0.000 0.000000 96 20 CONTA174 0.000 0.000000 97 1 TARGE170 0.000 0.000000 98 20 CONTA174 0.016 0.000781 99 1 TARGE170 0.000 0.000000 100 20 CONTA174 0.000 0.000000 101 1 TARGE170 0.000 0.000000 102 21 CONTA174 0.000 0.000000 103 1 TARGE170 0.000 0.000000 104 21 CONTA174 0.000 0.000000 105 1 TARGE170 0.000 0.000000 106 21 CONTA174 0.000 0.000000 107 1 TARGE170 0.000 0.000000 108 21 CONTA174 0.016 0.000744 109 1 TARGE170 0.000 0.000000 110 21 CONTA174 0.000 0.000000 111 1 TARGE170 0.000 0.000000 112 21 CONTA174 0.000 0.000000 113 1 TARGE170 0.000 0.000000 114 1 COMBIN39 0.000 0.000000 115 1 COMBIN39 0.000 0.000000 116 1 COMBIN39 0.000 0.000000 117 1 COMBIN39 0.000 0.000000 118 1 COMBIN39 0.000 0.000000 119 1 COMBIN39 0.000 0.000000 120 1 COMBIN39 0.000 0.000000 121 1 COMBIN39 0.000 0.000000 122 1 COMBIN39 0.000 0.000000 123 1 COMBIN39 0.000 0.000000 124 1 COMBIN39 0.000 0.000000 125 20 CONTA174 0.000 0.000000 126 21 TARGE170 0.000 0.000000 127 20 CONTA174 0.000 0.000000 128 21 TARGE170 0.000 0.000000 129 20 CONTA174 0.000 0.000000 130 21 TARGE170 0.000 0.000000 131 20 CONTA174 0.000 0.000000 132 21 TARGE170 0.000 0.000000 133 432 COMBIN14 0.016 0.000036 Time at end of element matrix formulation CP = 1.90625. ALL CURRENT ANSYS DATA WRITTEN TO FILE NAME= file.rdb FOR POSSIBLE RESUME FROM THIS POINT FORCE CONVERGENCE VALUE = 188.9 CRITERION= 0.9637 DISTRIBUTED SPARSE MATRIX DIRECT SOLVER. Number of equations = 9676, Maximum wavefront = 288 Local memory allocated for solver = 20.520 MB Local memory required for in-core solution = 12.452 MB Local memory required for out-of-core solution = 8.043 MB Total memory allocated for solver = 39.690 MB Total memory required for in-core solution = 23.569 MB Total memory required for out-of-core solution = 14.015 MB *** NOTE *** CP = 2.000 TIME= 09:18:11 The Distributed Sparse Matrix Solver is currently running in the in-core memory mode. This memory mode uses the most amount of memory in order to avoid using the hard drive as much as possible, which most often results in the fastest solution time. This mode is recommended if enough physical memory is present to accommodate all of the solver data. curEqn= 4886 totEqn= 4886 Job CP sec= 2.031 Factor Done= 100% Factor Wall sec= 0.023 rate= 5173.0 Mflops Distributed sparse solver maximum pivot= 2.622792009E+15 at node 4617 ROTY. Distributed sparse solver minimum pivot= 6825.98436 at node 932 UY. Distributed sparse solver minimum pivot in absolute value= 6825.98436 at node 932 UY. DISP CONVERGENCE VALUE = 0.3160E-02 CRITERION= 0.1612E-03 EQUIL ITER 1 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.3160E-02 DISP CONVERGENCE VALUE = 0.3160E-02 CRITERION= 0.1645E-03 LINE SEARCH PARAMETER = 1.000 SCALED MAX DOF INC = -0.3160E-02 FORCE CONVERGENCE VALUE = 553.7 CRITERION= 5.347 EQUIL ITER 2 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1961E-02 DISP CONVERGENCE VALUE = 0.1961E-02 CRITERION= 0.2616E-03 LINE SEARCH PARAMETER = 1.000 SCALED MAX DOF INC = -0.1961E-02 FORCE CONVERGENCE VALUE = 40.63 CRITERION= 5.464 EQUIL ITER 3 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2296E-07 DISP CONVERGENCE VALUE = 0.2194E-07 CRITERION= 0.2669E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.9555 SCALED MAX DOF INC = -0.2194E-07 FORCE CONVERGENCE VALUE = 55.81 CRITERION= 5.556 EQUIL ITER 4 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1022E-08 DISP CONVERGENCE VALUE = 0.6219E-10 CRITERION= 0.2724E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6084E-01 SCALED MAX DOF INC = -0.6219E-10 FORCE CONVERGENCE VALUE = 56.48 CRITERION= 5.669 EQUIL ITER 5 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.9601E-09 DISP CONVERGENCE VALUE = 0.3763E-09 CRITERION= 0.2779E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.3920 SCALED MAX DOF INC = -0.3763E-09 FORCE CONVERGENCE VALUE = 43.66 CRITERION= 5.784 EQUIL ITER 6 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.5838E-09 DISP CONVERGENCE VALUE = 0.2919E-10 CRITERION= 0.2836E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.2919E-10 FORCE CONVERGENCE VALUE = 54.66 CRITERION= 5.902 EQUIL ITER 7 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.5546E-09 DISP CONVERGENCE VALUE = 0.4204E-09 CRITERION= 0.2894E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7581 SCALED MAX DOF INC = -0.4204E-09 FORCE CONVERGENCE VALUE = 26.72 CRITERION= 6.023 EQUIL ITER 8 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1342E-09 DISP CONVERGENCE VALUE = 0.5416E-10 CRITERION= 0.2953E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.4036 SCALED MAX DOF INC = -0.5416E-10 FORCE CONVERGENCE VALUE = 30.65 CRITERION= 6.145 EQUIL ITER 9 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.8005E-10 DISP CONVERGENCE VALUE = 0.3411E-10 CRITERION= 0.3013E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.4261 SCALED MAX DOF INC = -0.3411E-10 FORCE CONVERGENCE VALUE = 41.62 CRITERION= 12.54 EQUIL ITER 10 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.4609E-10 DISP CONVERGENCE VALUE = 0.2304E-11 CRITERION= 0.3075E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.2304E-11 FORCE CONVERGENCE VALUE = 47.55 CRITERION= 12.80 EQUIL ITER 11 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.4380E-10 DISP CONVERGENCE VALUE = 0.2190E-11 CRITERION= 0.3137E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.2190E-11 FORCE CONVERGENCE VALUE = 53.73 CRITERION= 13.06 EQUIL ITER 12 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.4157E-10 DISP CONVERGENCE VALUE = 0.2860E-10 CRITERION= 0.3201E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6880 SCALED MAX DOF INC = -0.2860E-10 FORCE CONVERGENCE VALUE = 43.67 CRITERION= 13.33 EQUIL ITER 13 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1294E-10 DISP CONVERGENCE VALUE = 0.4612E-11 CRITERION= 0.3267E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.3564 SCALED MAX DOF INC = -0.4612E-11 FORCE CONVERGENCE VALUE = 52.68 CRITERION= 13.60 EQUIL ITER 14 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.8413E-11 DISP CONVERGENCE VALUE = 0.5837E-11 CRITERION= 0.3333E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6938 SCALED MAX DOF INC = -0.5837E-11 FORCE CONVERGENCE VALUE = 26.64 CRITERION= 13.87 EQUIL ITER 15 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2845E-11 DISP CONVERGENCE VALUE = 0.1422E-11 CRITERION= 0.3401E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.4997 SCALED MAX DOF INC = 0.1422E-11 FORCE CONVERGENCE VALUE = 50.84 CRITERION= 14.16 EQUIL ITER 16 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2810E-11 DISP CONVERGENCE VALUE = 0.6832E-12 CRITERION= 0.3471E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.6832E-12 FORCE CONVERGENCE VALUE = 53.69 CRITERION= 14.45 EQUIL ITER 17 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1380E-11 DISP CONVERGENCE VALUE = 0.1125E-11 CRITERION= 0.3542E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.8150 SCALED MAX DOF INC = 0.1125E-11 FORCE CONVERGENCE VALUE = 30.19 CRITERION= 14.74 EQUIL ITER 18 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.4627E-11 DISP CONVERGENCE VALUE = 0.4627E-11 CRITERION= 0.3614E-03 <<< CONVERGED LINE SEARCH PARAMETER = 1.000 SCALED MAX DOF INC = -0.4627E-11 FORCE CONVERGENCE VALUE = 54.20 CRITERION= 15.04 EQUIL ITER 19 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2700E-11 DISP CONVERGENCE VALUE = 0.6660E-12 CRITERION= 0.3688E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.1533 SCALED MAX DOF INC = 0.6660E-12 FORCE CONVERGENCE VALUE = 27.32 CRITERION= 15.35 EQUIL ITER 20 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.4371E-11 DISP CONVERGENCE VALUE = 0.3835E-12 CRITERION= 0.3763E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = 0.3835E-12 FORCE CONVERGENCE VALUE = 32.06 CRITERION= 15.66 EQUIL ITER 21 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.3162E-11 DISP CONVERGENCE VALUE = 0.2181E-11 CRITERION= 0.3840E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6896 SCALED MAX DOF INC = 0.2181E-11 FORCE CONVERGENCE VALUE = 37.42 CRITERION= 15.98 EQUIL ITER 22 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1862E-11 DISP CONVERGENCE VALUE = 0.4547E-12 CRITERION= 0.3918E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.1813E-12 FORCE CONVERGENCE VALUE = 46.60 CRITERION= 16.31 EQUIL ITER 23 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2217E-11 DISP CONVERGENCE VALUE = 0.1223E-11 CRITERION= 0.3998E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5118 SCALED MAX DOF INC = -0.1223E-11 FORCE CONVERGENCE VALUE = 39.56 CRITERION= 16.64 EQUIL ITER 24 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2820E-11 DISP CONVERGENCE VALUE = 0.4265E-12 CRITERION= 0.4080E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = 0.4265E-12 FORCE CONVERGENCE VALUE = 46.33 CRITERION= 16.98 EQUIL ITER 25 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.3512E-11 DISP CONVERGENCE VALUE = 0.2747E-11 CRITERION= 0.4080E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7822 SCALED MAX DOF INC = 0.2747E-11 FORCE CONVERGENCE VALUE = 54.65 CRITERION= 16.98 EQUIL ITER 26 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2369E-11 DISP CONVERGENCE VALUE = 0.1719E-11 CRITERION= 0.4080E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7259 SCALED MAX DOF INC = -0.1719E-11 FORCE CONVERGENCE VALUE = 28.84 CRITERION= 16.98 >>> SOLUTION NOT CONVERGED AFTER 26 EQUILIBRIUM ITERATIONS *** LOAD STEP 1 SUBSTEP 1 NOT COMPLETED. CUM ITER = 26 *** BEGIN BISECTION NUMBER 1 NEW TIME INCREMENT= 0.50000E-01 *** WARNING *** CP = 56.844 TIME= 09:19:07 Multiple constraints have been applied on degree of freedom 3 of contact node 3. The program will remove certain internal MPCs. Please check the model carefully. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 86 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 88 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 90 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 92 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 102 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 104 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 106 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 108 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 110 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 112 due to overconstraint detection logic. *** WARNING *** CP = 57.109 TIME= 09:19:08 The internal constraint equation 1083 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 57.109 TIME= 09:19:08 The internal constraint equation 1485 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 57.125 TIME= 09:19:08 The internal constraint equation 1749 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 57.125 TIME= 09:19:08 The internal constraint equation 2025 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 57.141 TIME= 09:19:08 The internal constraint equation 2163 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 57.141 TIME= 09:19:08 The internal constraint equation 2565 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. The FEA model contains 0 external CE equations and 1056 internal CE equations. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 Max. Penetration of 0 has been detected between contact element 1808 and target element 1806. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 1808 and target element 1806. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 2.512650351E-06. Max. Normal stiffness 80000001.2. Min. Normal stiffness 80000001.2. Max. Tangential stiffness 8483584.95. Min. Tangential stiffness 8483584.95. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 23 Max. Penetration of 0 has been detected between contact element 1877 and target element 1924. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 10000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 1.566356021E-12. Max. Normal stiffness 22.3560959. Min. Normal stiffness 22.3560959. Max. Tangential stiffness 2.53036773. Min. Tangential stiffness 2.53036773. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 24 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 25 Max. Penetration of 0 has been detected between contact element 1947 and target element 2009. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 1947 and target element 2009. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555556. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.916394991E-12. Max. Normal stiffness 24.2969524. Min. Normal stiffness 24.2969524. Max. Tangential stiffness 2.28001419. Min. Tangential stiffness 2.28001419. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 26 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 27 Max. Penetration of 0 has been detected between contact element 2031 and target element 2093. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 2031 and target element 2093. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555556. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 2.960402568E-11. Max. Normal stiffness 394.564519. Min. Normal stiffness 394.564519. Max. Tangential stiffness 38.9228162. Min. Tangential stiffness 38.9228162. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 28 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 29 Max. Penetration of 0 has been detected between contact element 2115 and target element 2157. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 2115 and target element 2157. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.184237864E-06. Max. Normal stiffness 14598487.2. Min. Normal stiffness 14598487.2. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 30 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 33 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 34 Max. Penetration of 0 has been detected between contact element 2936 and target element 2934. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 2936 and target element 2934. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 2.512650351E-06. Max. Normal stiffness 80000001.2. Min. Normal stiffness 80000001.2. Max. Tangential stiffness 8483584.95. Min. Tangential stiffness 8483584.95. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 35 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 36 Max. Penetration of 0 has been detected between contact element 2940 and target element 2938. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 2940 and target element 2938. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 2.512650351E-06. Max. Normal stiffness 80000001.2. Min. Normal stiffness 80000001.2. Max. Tangential stiffness 8483584.95. Min. Tangential stiffness 8483584.95. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 41 Max. Penetration of 0 has been detected between contact element 3079 and target element 3121. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 3079 and target element 3121. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.916394993E-12. Max. Normal stiffness 24.2969525. Min. Normal stiffness 24.2969525. Max. Tangential stiffness 2.28001419. Min. Tangential stiffness 2.28001419. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 42 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 43 Max. Penetration of 0 has been detected between contact element 3163 and target element 3225. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 3163 and target element 3225. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 2.96040257E-11. Max. Normal stiffness 394.564519. Min. Normal stiffness 394.564519. Max. Tangential stiffness 38.9228162. Min. Tangential stiffness 38.9228162. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 44 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 45 Max. Penetration of 0 has been detected between contact element 3247 and target element 3289. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3247 and target element 3289. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.916394993E-12. Max. Normal stiffness 24.2969525. Min. Normal stiffness 24.2969525. Max. Tangential stiffness 2.28001419. Min. Tangential stiffness 2.28001419. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 46 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 47 Max. Penetration of 0 has been detected between contact element 3331 and target element 3393. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3331 and target element 3393. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 2.96040257E-11. Max. Normal stiffness 394.564519. Min. Normal stiffness 394.564519. Max. Tangential stiffness 38.9228162. Min. Tangential stiffness 38.9228162. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 48 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 49 Max. Penetration of 0 has been detected between contact element 3415 and target element 3477. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3415 and target element 3477. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.184237864E-06. Max. Normal stiffness 14598487.2. Min. Normal stiffness 14598487.2. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 50 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 53 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 54 Max. Penetration of 0 has been detected between contact element 4236 and target element 4234. Max. Geometrical gap of 4.547473509E-13 has been detected between contact element 4236 and target element 4234. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 2.512650351E-06. Max. Normal stiffness 80000001.2. Min. Normal stiffness 80000001.2. Max. Tangential stiffness 8483584.95. Min. Tangential stiffness 8483584.95. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 55 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 56 Max. Penetration of 0 has been detected between contact element 4240 and target element 4238. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 2.512650351E-06. Max. Normal stiffness 80000001.2. Min. Normal stiffness 80000001.2. Max. Tangential stiffness 8483584.95. Min. Tangential stiffness 8483584.95. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 57 Max. Penetration of 0 has been detected between contact element 4251 and target element 4298. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 40000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 2.802670734E-11. Max. Normal stiffness 377.891416. Min. Normal stiffness 377.891416. Max. Tangential stiffness 40.4058428. Min. Tangential stiffness 40.4058428. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 58 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 61 Max. Penetration of 0 has been detected between contact element 4379 and target element 4421. Max. Geometrical gap of 4.547473509E-13 has been detected between contact element 4379 and target element 4421. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.916394993E-12. Max. Normal stiffness 24.2969525. Min. Normal stiffness 24.2969525. Max. Tangential stiffness 2.28001419. Min. Tangential stiffness 2.28001419. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 62 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 69 Max. Penetration of 0 has been detected between contact element 4715 and target element 4757. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.184237864E-06. Max. Normal stiffness 14598487.2. Min. Normal stiffness 14598487.2. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 70 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 71 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 72 Max. Penetration of 0 has been detected between contact element 5156 and target element 4798. For total 189 contact elements, there are 189 elements are in contact. There are 189 elements are in sticking. Contacting area 2500000. Max. Pinball distance 17.2721651. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 6.902477893E-13. Max. Normal stiffness 6.74915345. Min. Normal stiffness 6.74915345. Max. Tangential stiffness 0.506186509. Min. Tangential stiffness 0.506186509. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 73 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 74 Max. Penetration of 0 has been detected between contact element 5536 and target element 5534. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5536 and target element 5534. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 2.512650351E-06. Max. Normal stiffness 80000001.2. Min. Normal stiffness 80000001.2. Max. Tangential stiffness 8483584.95. Min. Tangential stiffness 8483584.95. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 75 Max. Penetration of 0 has been detected between contact element 5547 and target element 5594. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 40000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 2.802670734E-11. Max. Normal stiffness 377.891416. Min. Normal stiffness 377.891416. Max. Tangential stiffness 40.4058428. Min. Tangential stiffness 40.4058428. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 76 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 77 Max. Penetration of 0 has been detected between contact element 5605 and target element 5653. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 10000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 1.566356021E-12. Max. Normal stiffness 22.3560959. Min. Normal stiffness 22.3560959. Max. Tangential stiffness 2.53036773. Min. Tangential stiffness 2.53036773. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 78 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 79 Max. Penetration of 0 has been detected between contact element 5675 and target element 5717. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5675 and target element 5717. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.916394993E-12. Max. Normal stiffness 24.2969525. Min. Normal stiffness 24.2969525. Max. Tangential stiffness 2.28001419. Min. Tangential stiffness 2.28001419. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 80 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 81 Max. Penetration of 0 has been detected between contact element 5759 and target element 5821. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5759 and target element 5821. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 2.96040257E-11. Max. Normal stiffness 394.564519. Min. Normal stiffness 394.564519. Max. Tangential stiffness 38.9228162. Min. Tangential stiffness 38.9228162. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 82 *** NOTE *** CP = 57.594 TIME= 09:19:08 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 125 Max. Penetration of 0 has been detected between contact element 6950 and target element 6970. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 127 Max. Penetration of 0 has been detected between contact element 6991 and target element 7011. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 129 Max. Penetration of 0 has been detected between contact element 7032 and target element 7052. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 131 Max. Penetration of 0 has been detected between contact element 7073 and target element 7093. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* Range of element maximum matrix coefficients in global coordinates Maximum = 7.527777479E+16 at element 7032. Minimum = 4.367569506E-05 at element 7495. *** WARNING *** CP = 57.594 TIME= 09:19:08 Coefficient ratio exceeds 1.0e8 - Check results. FORCE CONVERGENCE VALUE = 94.45 CRITERION= 0.4819 DISTRIBUTED SPARSE MATRIX DIRECT SOLVER. Number of equations = 9676, Maximum wavefront = 288 Local memory allocated for solver = 12.890 MB Local memory required for in-core solution = 12.452 MB Local memory required for out-of-core solution = 8.043 MB Total memory allocated for solver = 25.353 MB Total memory required for in-core solution = 23.569 MB Total memory required for out-of-core solution = 14.015 MB *** NOTE *** CP = 57.688 TIME= 09:19:08 The Distributed Sparse Matrix Solver is currently running in the in-core memory mode. This memory mode uses the most amount of memory in order to avoid using the hard drive as much as possible, which most often results in the fastest solution time. This mode is recommended if enough physical memory is present to accommodate all of the solver data. Distributed sparse solver maximum pivot= 1.435333358E+15 at node 4621 ROTY. Distributed sparse solver minimum pivot= 4041.21574 at node 932 UY. Distributed sparse solver minimum pivot in absolute value= 4041.21574 at node 932 UY. DISP CONVERGENCE VALUE = 0.2075E-02 CRITERION= 0.1059E-03 EQUIL ITER 1 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2075E-02 DISP CONVERGENCE VALUE = 0.2075E-02 CRITERION= 0.1080E-03 LINE SEARCH PARAMETER = 1.000 SCALED MAX DOF INC = -0.2075E-02 FORCE CONVERGENCE VALUE = 131.2 CRITERION= 2.666 EQUIL ITER 2 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.4083E-03 DISP CONVERGENCE VALUE = 0.4083E-03 CRITERION= 0.1308E-03 LINE SEARCH PARAMETER = 1.000 SCALED MAX DOF INC = -0.4083E-03 FORCE CONVERGENCE VALUE = 37.73 CRITERION= 2.722 EQUIL ITER 3 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.9120E-09 DISP CONVERGENCE VALUE = 0.3994E-09 CRITERION= 0.1335E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.4380 SCALED MAX DOF INC = -0.3994E-09 FORCE CONVERGENCE VALUE = 43.87 CRITERION= 2.777 EQUIL ITER 4 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.5124E-09 DISP CONVERGENCE VALUE = 0.3446E-09 CRITERION= 0.1362E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6726 SCALED MAX DOF INC = -0.3446E-09 FORCE CONVERGENCE VALUE = 30.36 CRITERION= 2.834 EQUIL ITER 5 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1680E-09 DISP CONVERGENCE VALUE = 0.1178E-09 CRITERION= 0.1390E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7010 SCALED MAX DOF INC = -0.1178E-09 FORCE CONVERGENCE VALUE = 34.04 CRITERION= 2.892 EQUIL ITER 6 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.5029E-10 DISP CONVERGENCE VALUE = 0.2515E-11 CRITERION= 0.1418E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.2515E-11 FORCE CONVERGENCE VALUE = 50.77 CRITERION= 2.951 EQUIL ITER 7 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.4771E-10 DISP CONVERGENCE VALUE = 0.3441E-10 CRITERION= 0.1447E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7212 SCALED MAX DOF INC = -0.3441E-10 FORCE CONVERGENCE VALUE = 38.21 CRITERION= 3.011 EQUIL ITER 8 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1352E-10 DISP CONVERGENCE VALUE = 0.6672E-11 CRITERION= 0.1476E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.4934 SCALED MAX DOF INC = -0.6672E-11 FORCE CONVERGENCE VALUE = 31.76 CRITERION= 3.073 EQUIL ITER 9 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.6831E-11 DISP CONVERGENCE VALUE = 0.5048E-11 CRITERION= 0.1507E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7390 SCALED MAX DOF INC = -0.5048E-11 FORCE CONVERGENCE VALUE = 35.98 CRITERION= 6.271 EQUIL ITER 10 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1889E-11 DISP CONVERGENCE VALUE = 0.1112E-11 CRITERION= 0.1537E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5888 SCALED MAX DOF INC = -0.1112E-11 FORCE CONVERGENCE VALUE = 43.58 CRITERION= 6.398 EQUIL ITER 11 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1102E-11 DISP CONVERGENCE VALUE = 0.9095E-12 CRITERION= 0.1569E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.2076E-12 FORCE CONVERGENCE VALUE = 42.63 CRITERION= 6.529 EQUIL ITER 12 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1886E-11 DISP CONVERGENCE VALUE = 0.4547E-12 CRITERION= 0.1601E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = 0.1750E-12 FORCE CONVERGENCE VALUE = 56.81 CRITERION= 6.662 EQUIL ITER 13 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1156E-11 DISP CONVERGENCE VALUE = 0.4240E-12 CRITERION= 0.1633E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.4240E-12 FORCE CONVERGENCE VALUE = 64.13 CRITERION= 6.798 EQUIL ITER 14 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1807E-11 DISP CONVERGENCE VALUE = 0.9155E-12 CRITERION= 0.1667E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6711 SCALED MAX DOF INC = -0.9155E-12 FORCE CONVERGENCE VALUE = 48.14 CRITERION= 6.938 EQUIL ITER 15 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2124E-11 DISP CONVERGENCE VALUE = 0.1430E-11 CRITERION= 0.1701E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7843 SCALED MAX DOF INC = -0.1430E-11 FORCE CONVERGENCE VALUE = 35.21 CRITERION= 7.080 EQUIL ITER 16 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1378E-11 DISP CONVERGENCE VALUE = 0.9702E-12 CRITERION= 0.1735E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7043 SCALED MAX DOF INC = 0.9702E-12 FORCE CONVERGENCE VALUE = 34.74 CRITERION= 7.223 EQUIL ITER 17 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2430E-11 DISP CONVERGENCE VALUE = 0.1321E-11 CRITERION= 0.1771E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.4929 SCALED MAX DOF INC = 0.1321E-11 FORCE CONVERGENCE VALUE = 59.32 CRITERION= 7.370 EQUIL ITER 18 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.9422E-12 DISP CONVERGENCE VALUE = 0.2892E-12 CRITERION= 0.1807E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.1534 SCALED MAX DOF INC = 0.2892E-12 FORCE CONVERGENCE VALUE = 62.31 CRITERION= 7.520 EQUIL ITER 19 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2438E-11 DISP CONVERGENCE VALUE = 0.1866E-11 CRITERION= 0.1844E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7654 SCALED MAX DOF INC = 0.1866E-11 FORCE CONVERGENCE VALUE = 42.66 CRITERION= 7.675 EQUIL ITER 20 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.4780E-11 DISP CONVERGENCE VALUE = 0.3658E-11 CRITERION= 0.1881E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6892 SCALED MAX DOF INC = -0.3658E-11 FORCE CONVERGENCE VALUE = 29.72 CRITERION= 7.831 EQUIL ITER 21 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2484E-11 DISP CONVERGENCE VALUE = 0.1740E-11 CRITERION= 0.1920E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6923 SCALED MAX DOF INC = 0.1740E-11 FORCE CONVERGENCE VALUE = 41.40 CRITERION= 7.991 EQUIL ITER 22 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1493E-11 DISP CONVERGENCE VALUE = 0.1052E-11 CRITERION= 0.1959E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6673 SCALED MAX DOF INC = -0.1052E-11 FORCE CONVERGENCE VALUE = 55.70 CRITERION= 8.154 EQUIL ITER 23 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2307E-11 DISP CONVERGENCE VALUE = 0.7463E-12 CRITERION= 0.1999E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.3798 SCALED MAX DOF INC = 0.7463E-12 FORCE CONVERGENCE VALUE = 43.73 CRITERION= 8.321 EQUIL ITER 24 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1315E-11 DISP CONVERGENCE VALUE = 0.9512E-12 CRITERION= 0.2040E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7231 SCALED MAX DOF INC = -0.9512E-12 FORCE CONVERGENCE VALUE = 36.62 CRITERION= 8.491 EQUIL ITER 25 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1827E-11 DISP CONVERGENCE VALUE = 0.1271E-11 CRITERION= 0.2040E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6957 SCALED MAX DOF INC = 0.1271E-11 FORCE CONVERGENCE VALUE = 24.86 CRITERION= 8.490 EQUIL ITER 26 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1024E-11 DISP CONVERGENCE VALUE = 0.6476E-12 CRITERION= 0.2040E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.4450 SCALED MAX DOF INC = 0.6476E-12 FORCE CONVERGENCE VALUE = 35.07 CRITERION= 8.490 >>> SOLUTION NOT CONVERGED AFTER 26 EQUILIBRIUM ITERATIONS *** LOAD STEP 1 SUBSTEP 1 NOT COMPLETED. CUM ITER = 52 *** BEGIN BISECTION NUMBER 2 NEW TIME INCREMENT= 0.25000E-01 *** WARNING *** CP = 109.062 TIME= 09:20:01 Multiple constraints have been applied on degree of freedom 3 of contact node 3. The program will remove certain internal MPCs. Please check the model carefully. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 86 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 88 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 90 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 92 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 102 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 104 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 106 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 108 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 110 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 112 due to overconstraint detection logic. *** WARNING *** CP = 109.172 TIME= 09:20:01 The internal constraint equation 1083 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 109.172 TIME= 09:20:01 The internal constraint equation 1485 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 109.188 TIME= 09:20:01 The internal constraint equation 1749 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 109.188 TIME= 09:20:01 The internal constraint equation 2025 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 109.188 TIME= 09:20:01 The internal constraint equation 2163 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 109.188 TIME= 09:20:01 The internal constraint equation 2565 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. The FEA model contains 0 external CE equations and 1056 internal CE equations. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 Max. Penetration of 0 has been detected between contact element 1808 and target element 1806. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 1808 and target element 1806. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 5.025300982E-07. Max. Normal stiffness 16000001.1. Min. Normal stiffness 16000001.1. Max. Tangential stiffness 1696717.09. Min. Tangential stiffness 1696717.09. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 23 Max. Penetration of 0 has been detected between contact element 1877 and target element 1924. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 10000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 3.132712217E-13. Max. Normal stiffness 4.47121943. Min. Normal stiffness 4.47121943. Max. Tangential stiffness 0.506073575. Min. Tangential stiffness 0.506073575. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 24 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 25 Max. Penetration of 0 has been detected between contact element 1947 and target element 2009. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 1947 and target element 2009. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555556. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 3.832790196E-13. Max. Normal stiffness 4.85939076. Min. Normal stiffness 4.85939076. Max. Tangential stiffness 0.456002864. Min. Tangential stiffness 0.456002864. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 26 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 27 Max. Penetration of 0 has been detected between contact element 2031 and target element 2093. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 2031 and target element 2093. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555556. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.920805466E-12. Max. Normal stiffness 78.9129082. Min. Normal stiffness 78.9129082. Max. Tangential stiffness 7.78456368. Min. Tangential stiffness 7.78456368. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 28 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 29 Max. Penetration of 0 has been detected between contact element 2115 and target element 2157. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 2115 and target element 2157. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 2.368475859E-07. Max. Normal stiffness 2919697.6. Min. Normal stiffness 2919697.6. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 30 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 33 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 34 Max. Penetration of 0 has been detected between contact element 2936 and target element 2934. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 2936 and target element 2934. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 5.025300982E-07. Max. Normal stiffness 16000001.1. Min. Normal stiffness 16000001.1. Max. Tangential stiffness 1696717.09. Min. Tangential stiffness 1696717.09. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 35 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 36 Max. Penetration of 0 has been detected between contact element 2940 and target element 2938. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 2940 and target element 2938. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 5.025300982E-07. Max. Normal stiffness 16000001.1. Min. Normal stiffness 16000001.1. Max. Tangential stiffness 1696717.09. Min. Tangential stiffness 1696717.09. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 41 Max. Penetration of 0 has been detected between contact element 3079 and target element 3121. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 3079 and target element 3121. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 3.8327902E-13. Max. Normal stiffness 4.85939076. Min. Normal stiffness 4.85939076. Max. Tangential stiffness 0.456002864. Min. Tangential stiffness 0.456002864. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 42 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 43 Max. Penetration of 0 has been detected between contact element 3163 and target element 3225. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 3163 and target element 3225. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.920805472E-12. Max. Normal stiffness 78.9129082. Min. Normal stiffness 78.9129082. Max. Tangential stiffness 7.78456368. Min. Tangential stiffness 7.78456368. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 44 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 45 Max. Penetration of 0 has been detected between contact element 3247 and target element 3289. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3247 and target element 3289. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 3.8327902E-13. Max. Normal stiffness 4.85939076. Min. Normal stiffness 4.85939076. Max. Tangential stiffness 0.456002864. Min. Tangential stiffness 0.456002864. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 46 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 47 Max. Penetration of 0 has been detected between contact element 3331 and target element 3393. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3331 and target element 3393. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.920805472E-12. Max. Normal stiffness 78.9129082. Min. Normal stiffness 78.9129082. Max. Tangential stiffness 7.78456368. Min. Tangential stiffness 7.78456368. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 48 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 49 Max. Penetration of 0 has been detected between contact element 3415 and target element 3477. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3415 and target element 3477. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 2.368475859E-07. Max. Normal stiffness 2919697.6. Min. Normal stiffness 2919697.6. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 50 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 53 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 54 Max. Penetration of 0 has been detected between contact element 4236 and target element 4234. Max. Geometrical gap of 4.547473509E-13 has been detected between contact element 4236 and target element 4234. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 5.025300982E-07. Max. Normal stiffness 16000001.1. Min. Normal stiffness 16000001.1. Max. Tangential stiffness 1696717.09. Min. Tangential stiffness 1696717.09. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 55 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 56 Max. Penetration of 0 has been detected between contact element 4240 and target element 4238. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 5.025300982E-07. Max. Normal stiffness 16000001.1. Min. Normal stiffness 16000001.1. Max. Tangential stiffness 1696717.09. Min. Tangential stiffness 1696717.09. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 57 Max. Penetration of 0 has been detected between contact element 4251 and target element 4298. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 40000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 5.605341781E-12. Max. Normal stiffness 75.5782875. Min. Normal stiffness 75.5782875. Max. Tangential stiffness 8.08116901. Min. Tangential stiffness 8.08116901. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 58 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 61 Max. Penetration of 0 has been detected between contact element 4379 and target element 4421. Max. Geometrical gap of 4.547473509E-13 has been detected between contact element 4379 and target element 4421. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 3.8327902E-13. Max. Normal stiffness 4.85939076. Min. Normal stiffness 4.85939076. Max. Tangential stiffness 0.456002864. Min. Tangential stiffness 0.456002864. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 62 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 69 Max. Penetration of 0 has been detected between contact element 4715 and target element 4757. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 2.368475859E-07. Max. Normal stiffness 2919697.6. Min. Normal stiffness 2919697.6. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 70 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 71 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 72 Max. Penetration of 0 has been detected between contact element 5156 and target element 4798. For total 189 contact elements, there are 189 elements are in contact. There are 189 elements are in sticking. Contacting area 2500000. Max. Pinball distance 17.2721651. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 1.380495656E-13. Max. Normal stiffness 1.34983077. Min. Normal stiffness 1.34983077. Max. Tangential stiffness 0.101237307. Min. Tangential stiffness 0.101237307. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 73 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 74 Max. Penetration of 0 has been detected between contact element 5536 and target element 5534. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5536 and target element 5534. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 5.025300982E-07. Max. Normal stiffness 16000001.1. Min. Normal stiffness 16000001.1. Max. Tangential stiffness 1696717.09. Min. Tangential stiffness 1696717.09. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 75 Max. Penetration of 0 has been detected between contact element 5547 and target element 5594. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 40000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 5.605341781E-12. Max. Normal stiffness 75.5782875. Min. Normal stiffness 75.5782875. Max. Tangential stiffness 8.08116901. Min. Tangential stiffness 8.08116901. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 76 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 77 Max. Penetration of 0 has been detected between contact element 5605 and target element 5653. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 10000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 3.132712217E-13. Max. Normal stiffness 4.47121943. Min. Normal stiffness 4.47121943. Max. Tangential stiffness 0.506073575. Min. Tangential stiffness 0.506073575. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 78 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 79 Max. Penetration of 0 has been detected between contact element 5675 and target element 5717. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5675 and target element 5717. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 3.8327902E-13. Max. Normal stiffness 4.85939076. Min. Normal stiffness 4.85939076. Max. Tangential stiffness 0.456002864. Min. Tangential stiffness 0.456002864. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 80 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 81 Max. Penetration of 0 has been detected between contact element 5759 and target element 5821. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5759 and target element 5821. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.920805472E-12. Max. Normal stiffness 78.9129082. Min. Normal stiffness 78.9129082. Max. Tangential stiffness 7.78456368. Min. Tangential stiffness 7.78456368. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 82 *** NOTE *** CP = 109.422 TIME= 09:20:02 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 125 Max. Penetration of 0 has been detected between contact element 6950 and target element 6970. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 127 Max. Penetration of 0 has been detected between contact element 6991 and target element 7011. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 129 Max. Penetration of 0 has been detected between contact element 7032 and target element 7052. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 131 Max. Penetration of 0 has been detected between contact element 7073 and target element 7093. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* Range of element maximum matrix coefficients in global coordinates Maximum = 7.527777479E+16 at element 7032. Minimum = 4.367569506E-05 at element 7495. *** WARNING *** CP = 109.422 TIME= 09:20:02 Coefficient ratio exceeds 1.0e8 - Check results. FORCE CONVERGENCE VALUE = 47.23 CRITERION= 0.2409 DISTRIBUTED SPARSE MATRIX DIRECT SOLVER. Number of equations = 9676, Maximum wavefront = 288 Local memory allocated for solver = 12.890 MB Local memory required for in-core solution = 12.452 MB Local memory required for out-of-core solution = 8.043 MB Total memory allocated for solver = 25.353 MB Total memory required for in-core solution = 23.569 MB Total memory required for out-of-core solution = 14.015 MB *** NOTE *** CP = 109.469 TIME= 09:20:02 The Distributed Sparse Matrix Solver is currently running in the in-core memory mode. This memory mode uses the most amount of memory in order to avoid using the hard drive as much as possible, which most often results in the fastest solution time. This mode is recommended if enough physical memory is present to accommodate all of the solver data. Distributed sparse solver maximum pivot= 1.434021462E+15 at node 4621 ROTY. Distributed sparse solver minimum pivot= 3454.04854 at node 932 UY. Distributed sparse solver minimum pivot in absolute value= 3454.04854 at node 932 UY. DISP CONVERGENCE VALUE = 0.1601E-02 CRITERION= 0.8168E-04 EQUIL ITER 1 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1601E-02 DISP CONVERGENCE VALUE = 0.1223E-02 CRITERION= 0.8335E-04 LINE SEARCH PARAMETER = 0.7641 SCALED MAX DOF INC = -0.1223E-02 FORCE CONVERGENCE VALUE = 116.4 CRITERION= 1.029 EQUIL ITER 2 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1462E-03 DISP CONVERGENCE VALUE = 0.1462E-03 CRITERION= 0.8505E-04 LINE SEARCH PARAMETER = 1.000 SCALED MAX DOF INC = 0.1462E-03 FORCE CONVERGENCE VALUE = 36.10 CRITERION= 1.361 EQUIL ITER 3 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.3450E-09 DISP CONVERGENCE VALUE = 0.2356E-09 CRITERION= 0.8679E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.6827 SCALED MAX DOF INC = -0.2356E-09 FORCE CONVERGENCE VALUE = 36.88 CRITERION= 1.389 EQUIL ITER 4 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1093E-09 DISP CONVERGENCE VALUE = 0.5465E-11 CRITERION= 0.8856E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.5465E-11 FORCE CONVERGENCE VALUE = 42.93 CRITERION= 1.417 EQUIL ITER 5 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1039E-09 DISP CONVERGENCE VALUE = 0.6976E-10 CRITERION= 0.9037E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.6712 SCALED MAX DOF INC = -0.6976E-10 FORCE CONVERGENCE VALUE = 44.58 CRITERION= 1.446 EQUIL ITER 6 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.3416E-10 DISP CONVERGENCE VALUE = 0.5922E-11 CRITERION= 0.9221E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.1734 SCALED MAX DOF INC = -0.5922E-11 FORCE CONVERGENCE VALUE = 42.92 CRITERION= 1.476 EQUIL ITER 7 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2839E-10 DISP CONVERGENCE VALUE = 0.2164E-10 CRITERION= 0.9409E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.7622 SCALED MAX DOF INC = -0.2164E-10 FORCE CONVERGENCE VALUE = 45.69 CRITERION= 1.506 EQUIL ITER 8 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.6830E-11 DISP CONVERGENCE VALUE = 0.5114E-11 CRITERION= 0.9601E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.7488 SCALED MAX DOF INC = -0.5114E-11 FORCE CONVERGENCE VALUE = 43.84 CRITERION= 1.536 EQUIL ITER 9 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1683E-11 DISP CONVERGENCE VALUE = 0.1153E-11 CRITERION= 0.9797E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.6850 SCALED MAX DOF INC = -0.1153E-11 FORCE CONVERGENCE VALUE = 40.50 CRITERION= 3.136 EQUIL ITER 10 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1143E-11 DISP CONVERGENCE VALUE = 0.5656E-12 CRITERION= 0.9997E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.3792 SCALED MAX DOF INC = -0.5656E-12 FORCE CONVERGENCE VALUE = 38.21 CRITERION= 3.200 EQUIL ITER 11 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1509E-11 DISP CONVERGENCE VALUE = 0.6745E-12 CRITERION= 0.1020E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.4469 SCALED MAX DOF INC = 0.6745E-12 FORCE CONVERGENCE VALUE = 37.68 CRITERION= 3.265 EQUIL ITER 12 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2838E-11 DISP CONVERGENCE VALUE = 0.2172E-11 CRITERION= 0.1041E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6959 SCALED MAX DOF INC = -0.2172E-11 FORCE CONVERGENCE VALUE = 27.98 CRITERION= 3.331 EQUIL ITER 13 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1449E-11 DISP CONVERGENCE VALUE = 0.6569E-12 CRITERION= 0.1062E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.3907 SCALED MAX DOF INC = 0.6569E-12 FORCE CONVERGENCE VALUE = 34.60 CRITERION= 3.400 EQUIL ITER 14 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2033E-11 DISP CONVERGENCE VALUE = 0.9095E-12 CRITERION= 0.1084E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.3535E-12 FORCE CONVERGENCE VALUE = 39.40 CRITERION= 3.469 EQUIL ITER 15 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2252E-11 DISP CONVERGENCE VALUE = 0.7851E-12 CRITERION= 0.1106E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.7851E-12 FORCE CONVERGENCE VALUE = 64.64 CRITERION= 3.540 EQUIL ITER 16 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1685E-11 DISP CONVERGENCE VALUE = 0.1281E-11 CRITERION= 0.1129E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7514 SCALED MAX DOF INC = 0.1281E-11 FORCE CONVERGENCE VALUE = 42.48 CRITERION= 3.611 EQUIL ITER 17 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1705E-11 DISP CONVERGENCE VALUE = 0.1451E-11 CRITERION= 0.1152E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7613 SCALED MAX DOF INC = -0.1451E-11 FORCE CONVERGENCE VALUE = 33.88 CRITERION= 3.685 EQUIL ITER 18 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1417E-11 DISP CONVERGENCE VALUE = 0.7911E-12 CRITERION= 0.1175E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5098 SCALED MAX DOF INC = 0.7911E-12 FORCE CONVERGENCE VALUE = 29.18 CRITERION= 3.761 EQUIL ITER 19 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1183E-11 DISP CONVERGENCE VALUE = 0.7926E-12 CRITERION= 0.1199E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6699 SCALED MAX DOF INC = 0.7926E-12 FORCE CONVERGENCE VALUE = 34.00 CRITERION= 3.838 EQUIL ITER 20 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.6991E-12 DISP CONVERGENCE VALUE = 0.5358E-12 CRITERION= 0.1224E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.6733 SCALED MAX DOF INC = -0.5358E-12 FORCE CONVERGENCE VALUE = 28.31 CRITERION= 3.915 EQUIL ITER 21 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1893E-11 DISP CONVERGENCE VALUE = 0.1125E-11 CRITERION= 0.1248E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.1184 SCALED MAX DOF INC = 0.1125E-11 FORCE CONVERGENCE VALUE = 55.19 CRITERION= 3.995 EQUIL ITER 22 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1469E-11 DISP CONVERGENCE VALUE = 0.1063E-11 CRITERION= 0.1274E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.7795 SCALED MAX DOF INC = -0.1063E-11 FORCE CONVERGENCE VALUE = 38.24 CRITERION= 4.077 EQUIL ITER 23 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1509E-11 DISP CONVERGENCE VALUE = 0.7087E-12 CRITERION= 0.1300E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.4696 SCALED MAX DOF INC = 0.7087E-12 FORCE CONVERGENCE VALUE = 37.95 CRITERION= 4.160 EQUIL ITER 24 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1955E-11 DISP CONVERGENCE VALUE = 0.1053E-11 CRITERION= 0.1327E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5386 SCALED MAX DOF INC = -0.1053E-11 FORCE CONVERGENCE VALUE = 41.27 CRITERION= 4.246 EQUIL ITER 25 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.8815E-12 DISP CONVERGENCE VALUE = 0.3726E-12 CRITERION= 0.1327E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.4227 SCALED MAX DOF INC = 0.3726E-12 FORCE CONVERGENCE VALUE = 38.88 CRITERION= 4.244 EQUIL ITER 26 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1104E-11 DISP CONVERGENCE VALUE = 0.4547E-12 CRITERION= 0.1327E-03 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = 0.1764E-12 FORCE CONVERGENCE VALUE = 39.83 CRITERION= 4.244 >>> SOLUTION NOT CONVERGED AFTER 26 EQUILIBRIUM ITERATIONS *** LOAD STEP 1 SUBSTEP 1 NOT COMPLETED. CUM ITER = 78 *** BEGIN BISECTION NUMBER 3 NEW TIME INCREMENT= 0.10000E-01 *** WARNING *** CP = 164.141 TIME= 09:20:58 Multiple constraints have been applied on degree of freedom 3 of contact node 3. The program will remove certain internal MPCs. Please check the model carefully. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 86 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 88 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 90 due to overconstraint detection logic. *WARNING*: 39 MPC equations were released for the rigid constraint surface identified by real constant set 92 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 102 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 104 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 106 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 108 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 110 due to overconstraint detection logic. *WARNING*: 19 MPC equations were released for the rigid constraint surface identified by real constant set 112 due to overconstraint detection logic. *** WARNING *** CP = 164.391 TIME= 09:20:58 The internal constraint equation 1083 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 164.391 TIME= 09:20:58 The internal constraint equation 1485 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 164.406 TIME= 09:20:58 The internal constraint equation 1749 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 164.406 TIME= 09:20:58 The internal constraint equation 2025 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 164.406 TIME= 09:20:58 The internal constraint equation 2163 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. *** WARNING *** CP = 164.422 TIME= 09:20:58 The internal constraint equation 2565 created by contact pair has been deleted due to redundancy. This is most likely caused by two or more constraint equations that share too many degrees of freedom. The FEA model contains 0 external CE equations and 1056 internal CE equations. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 *** NOTE *** CP = 164.859 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 Max. Penetration of 0 has been detected between contact element 1808 and target element 1806. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 1808 and target element 1806. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.005060173E-07. Max. Normal stiffness 3200000.15. Min. Normal stiffness 3200000.15. Max. Tangential stiffness 339343.409. Min. Tangential stiffness 339343.409. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 23 Max. Penetration of 0 has been detected between contact element 1877 and target element 1924. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 10000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 6.265424289E-14. Max. Normal stiffness 0.894243865. Min. Normal stiffness 0.894243865. Max. Tangential stiffness 0.101214713. Min. Tangential stiffness 0.101214713. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 24 *** NOTE *** CP = 164.859 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 25 Max. Penetration of 0 has been detected between contact element 1947 and target element 2009. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 1947 and target element 2009. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555556. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 7.665580214E-14. Max. Normal stiffness 0.971878129. Min. Normal stiffness 0.971878129. Max. Tangential stiffness 9.120057069E-02. Min. Tangential stiffness 9.120057069E-02. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 26 *** NOTE *** CP = 164.859 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 27 Max. Penetration of 0 has been detected between contact element 2031 and target element 2093. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 2031 and target element 2093. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555556. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.184161066E-12. Max. Normal stiffness 15.7825813. Min. Normal stiffness 15.7825813. Max. Tangential stiffness 1.5569127. Min. Tangential stiffness 1.5569127. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 28 *** NOTE *** CP = 164.859 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 29 Max. Penetration of 0 has been detected between contact element 2115 and target element 2157. Max. Geometrical penetration of -1.136868377E-13 has been detected between contact element 2115 and target element 2157. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 4.736951608E-08. Max. Normal stiffness 583939.507. Min. Normal stiffness 583939.507. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 30 *** NOTE *** CP = 164.859 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 33 *** NOTE *** CP = 164.859 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 34 Max. Penetration of 0 has been detected between contact element 2936 and target element 2934. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 2936 and target element 2934. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.005060173E-07. Max. Normal stiffness 3200000.15. Min. Normal stiffness 3200000.15. Max. Tangential stiffness 339343.409. Min. Tangential stiffness 339343.409. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 35 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 36 Max. Penetration of 0 has been detected between contact element 2940 and target element 2938. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 2940 and target element 2938. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.005060173E-07. Max. Normal stiffness 3200000.15. Min. Normal stiffness 3200000.15. Max. Tangential stiffness 339343.409. Min. Tangential stiffness 339343.409. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 41 Max. Penetration of 0 has been detected between contact element 3079 and target element 3121. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 3079 and target element 3121. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 7.665580221E-14. Max. Normal stiffness 0.97187813. Min. Normal stiffness 0.97187813. Max. Tangential stiffness 9.120057069E-02. Min. Tangential stiffness 9.120057069E-02. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 42 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 43 Max. Penetration of 0 has been detected between contact element 3163 and target element 3225. Max. Geometrical gap of 2.273736754E-13 has been detected between contact element 3163 and target element 3225. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.184161067E-12. Max. Normal stiffness 15.7825813. Min. Normal stiffness 15.7825813. Max. Tangential stiffness 1.5569127. Min. Tangential stiffness 1.5569127. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 44 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 45 Max. Penetration of 0 has been detected between contact element 3247 and target element 3289. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3247 and target element 3289. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 7.665580221E-14. Max. Normal stiffness 0.97187813. Min. Normal stiffness 0.97187813. Max. Tangential stiffness 9.120057069E-02. Min. Tangential stiffness 9.120057069E-02. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 46 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 47 Max. Penetration of 0 has been detected between contact element 3331 and target element 3393. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3331 and target element 3393. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.184161067E-12. Max. Normal stiffness 15.7825813. Min. Normal stiffness 15.7825813. Max. Tangential stiffness 1.5569127. Min. Tangential stiffness 1.5569127. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 48 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 49 Max. Penetration of 0 has been detected between contact element 3415 and target element 3477. Max. Geometrical penetration of -2.273736754E-13 has been detected between contact element 3415 and target element 3477. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 4.736951608E-08. Max. Normal stiffness 583939.507. Min. Normal stiffness 583939.507. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 50 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 53 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 54 Max. Penetration of 0 has been detected between contact element 4236 and target element 4234. Max. Geometrical gap of 4.547473509E-13 has been detected between contact element 4236 and target element 4234. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.005060173E-07. Max. Normal stiffness 3200000.15. Min. Normal stiffness 3200000.15. Max. Tangential stiffness 339343.409. Min. Tangential stiffness 339343.409. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 55 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 56 Max. Penetration of 0 has been detected between contact element 4240 and target element 4238. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.005060173E-07. Max. Normal stiffness 3200000.15. Min. Normal stiffness 3200000.15. Max. Tangential stiffness 339343.409. Min. Tangential stiffness 339343.409. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 57 Max. Penetration of 0 has been detected between contact element 4251 and target element 4298. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 40000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 1.12106833E-12. Max. Normal stiffness 15.1156571. Min. Normal stiffness 15.1156571. Max. Tangential stiffness 1.61623376. Min. Tangential stiffness 1.61623376. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 58 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 61 Max. Penetration of 0 has been detected between contact element 4379 and target element 4421. Max. Geometrical gap of 4.547473509E-13 has been detected between contact element 4379 and target element 4421. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 7.665580221E-14. Max. Normal stiffness 0.97187813. Min. Normal stiffness 0.97187813. Max. Tangential stiffness 9.120057069E-02. Min. Tangential stiffness 9.120057069E-02. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 62 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 69 Max. Penetration of 0 has been detected between contact element 4715 and target element 4757. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 8.966198204E-14. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 4.736951608E-08. Max. Normal stiffness 583939.507. Min. Normal stiffness 583939.507. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 70 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 71 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 72 Max. Penetration of 0 has been detected between contact element 5156 and target element 4798. For total 189 contact elements, there are 189 elements are in contact. There are 189 elements are in sticking. Contacting area 2500000. Max. Pinball distance 17.2721651. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 2.760991247E-14. Max. Normal stiffness 0.269966147. Min. Normal stiffness 0.269966147. Max. Tangential stiffness 2.024746102E-02. Min. Tangential stiffness 2.024746102E-02. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 73 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 74 Max. Penetration of 0 has been detected between contact element 5536 and target element 5534. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5536 and target element 5534. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.005060173E-07. Max. Normal stiffness 3200000.15. Min. Normal stiffness 3200000.15. Max. Tangential stiffness 339343.409. Min. Tangential stiffness 339343.409. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 75 Max. Penetration of 0 has been detected between contact element 5547 and target element 5594. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 40000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 1.12106833E-12. Max. Normal stiffness 15.1156571. Min. Normal stiffness 15.1156571. Max. Tangential stiffness 1.61623376. Min. Tangential stiffness 1.61623376. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 76 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 77 Max. Penetration of 0 has been detected between contact element 5605 and target element 5653. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 10000. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 8 target elements. Max. Pressure/force 6.265424289E-14. Max. Normal stiffness 0.894243865. Min. Normal stiffness 0.894243865. Max. Tangential stiffness 0.101214713. Min. Tangential stiffness 0.101214713. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 78 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 79 Max. Penetration of 0 has been detected between contact element 5675 and target element 5717. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5675 and target element 5717. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 100000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 7.665580221E-14. Max. Normal stiffness 0.97187813. Min. Normal stiffness 0.97187813. Max. Tangential stiffness 9.120057069E-02. Min. Tangential stiffness 9.120057069E-02. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 80 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 81 Max. Penetration of 0 has been detected between contact element 5759 and target element 5821. Max. Geometrical penetration of -4.547473509E-13 has been detected between contact element 5759 and target element 5821. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 25000. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 1.184161067E-12. Max. Normal stiffness 15.7825813. Min. Normal stiffness 15.7825813. Max. Tangential stiffness 1.5569127. Min. Tangential stiffness 1.5569127. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 82 *** NOTE *** CP = 164.875 TIME= 09:20:59 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 125 Max. Penetration of 0 has been detected between contact element 6950 and target element 6970. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 127 Max. Penetration of 0 has been detected between contact element 6991 and target element 7011. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 129 Max. Penetration of 0 has been detected between contact element 7032 and target element 7052. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 131 Max. Penetration of 0 has been detected between contact element 7073 and target element 7093. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Pinball distance 45.0000018. One of the contact searching regions contains at least 7 target elements. Max. Pressure/force 5.921189229E-06. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* Range of element maximum matrix coefficients in global coordinates Maximum = 7.527777479E+16 at element 7032. Minimum = 4.367569506E-05 at element 7495. *** WARNING *** CP = 164.875 TIME= 09:20:59 Coefficient ratio exceeds 1.0e8 - Check results. FORCE CONVERGENCE VALUE = 18.91 CRITERION= 0.9642E-01 DISTRIBUTED SPARSE MATRIX DIRECT SOLVER. Number of equations = 9676, Maximum wavefront = 288 Local memory allocated for solver = 12.890 MB Local memory required for in-core solution = 12.452 MB Local memory required for out-of-core solution = 8.043 MB Total memory allocated for solver = 25.353 MB Total memory required for in-core solution = 23.569 MB Total memory required for out-of-core solution = 14.015 MB *** NOTE *** CP = 164.969 TIME= 09:20:59 The Distributed Sparse Matrix Solver is currently running in the in-core memory mode. This memory mode uses the most amount of memory in order to avoid using the hard drive as much as possible, which most often results in the fastest solution time. This mode is recommended if enough physical memory is present to accommodate all of the solver data. Distributed sparse solver maximum pivot= 1.433757453E+15 at node 4621 ROTY. Distributed sparse solver minimum pivot= 3095.25334 at node 3893 UY. Distributed sparse solver minimum pivot in absolute value= 3095.25334 at node 3893 UY. DISP CONVERGENCE VALUE = 0.1082E-02 CRITERION= 0.5518E-04 EQUIL ITER 1 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1082E-02 DISP CONVERGENCE VALUE = 0.2368E-03 CRITERION= 0.5631E-04 LINE SEARCH PARAMETER = 0.2189 SCALED MAX DOF INC = -0.2368E-03 FORCE CONVERGENCE VALUE = 87.71 CRITERION= 0.1704 EQUIL ITER 2 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2556E-03 DISP CONVERGENCE VALUE = 0.2556E-03 CRITERION= 0.5745E-04 LINE SEARCH PARAMETER = 1.000 SCALED MAX DOF INC = -0.2556E-03 FORCE CONVERGENCE VALUE = 36.85 CRITERION= 0.5446 EQUIL ITER 3 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1667E-09 DISP CONVERGENCE VALUE = 0.1223E-09 CRITERION= 0.5863E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.7338 SCALED MAX DOF INC = -0.1223E-09 FORCE CONVERGENCE VALUE = 60.10 CRITERION= 0.5554 EQUIL ITER 4 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.4442E-10 DISP CONVERGENCE VALUE = 0.4299E-10 CRITERION= 0.5982E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.9679 SCALED MAX DOF INC = -0.4299E-10 FORCE CONVERGENCE VALUE = 31.78 CRITERION= 0.5669 EQUIL ITER 5 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1411E-11 DISP CONVERGENCE VALUE = 0.4547E-12 CRITERION= 0.6104E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = 0.1432E-12 FORCE CONVERGENCE VALUE = 41.65 CRITERION= 0.5785 EQUIL ITER 6 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1447E-11 DISP CONVERGENCE VALUE = 0.7033E-12 CRITERION= 0.6229E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.4861 SCALED MAX DOF INC = -0.7033E-12 FORCE CONVERGENCE VALUE = 47.75 CRITERION= 0.5907 EQUIL ITER 7 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2071E-11 DISP CONVERGENCE VALUE = 0.4851E-12 CRITERION= 0.6356E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.4851E-12 FORCE CONVERGENCE VALUE = 58.28 CRITERION= 0.6021 EQUIL ITER 8 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1756E-11 DISP CONVERGENCE VALUE = 0.7645E-12 CRITERION= 0.6486E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.3410 SCALED MAX DOF INC = 0.7645E-12 FORCE CONVERGENCE VALUE = 45.19 CRITERION= 0.6147 EQUIL ITER 9 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2390E-11 DISP CONVERGENCE VALUE = 0.1702E-11 CRITERION= 0.6618E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.7120 SCALED MAX DOF INC = 0.1702E-11 FORCE CONVERGENCE VALUE = 42.50 CRITERION= 1.255 EQUIL ITER 10 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2081E-11 DISP CONVERGENCE VALUE = 0.1945E-11 CRITERION= 0.6753E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.8741 SCALED MAX DOF INC = -0.1945E-11 FORCE CONVERGENCE VALUE = 30.38 CRITERION= 1.280 EQUIL ITER 11 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1723E-11 DISP CONVERGENCE VALUE = 0.1236E-11 CRITERION= 0.6891E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.7174 SCALED MAX DOF INC = -0.1236E-11 FORCE CONVERGENCE VALUE = 44.99 CRITERION= 1.306 EQUIL ITER 12 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1605E-11 DISP CONVERGENCE VALUE = 0.5086E-12 CRITERION= 0.7032E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.5086E-12 FORCE CONVERGENCE VALUE = 46.06 CRITERION= 1.333 EQUIL ITER 13 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.3022E-11 DISP CONVERGENCE VALUE = 0.1632E-11 CRITERION= 0.7175E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.5401 SCALED MAX DOF INC = 0.1632E-11 FORCE CONVERGENCE VALUE = 49.95 CRITERION= 1.360 EQUIL ITER 14 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.3379E-11 DISP CONVERGENCE VALUE = 0.1304E-11 CRITERION= 0.7322E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.3922 SCALED MAX DOF INC = -0.1304E-11 FORCE CONVERGENCE VALUE = 43.95 CRITERION= 1.387 EQUIL ITER 15 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.8651E-12 DISP CONVERGENCE VALUE = 0.6010E-12 CRITERION= 0.7471E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.7257 SCALED MAX DOF INC = 0.6010E-12 FORCE CONVERGENCE VALUE = 42.83 CRITERION= 1.416 EQUIL ITER 16 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.1713E-11 DISP CONVERGENCE VALUE = 0.1333E-11 CRITERION= 0.7624E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.7781 SCALED MAX DOF INC = 0.1333E-11 FORCE CONVERGENCE VALUE = 26.43 CRITERION= 1.444 EQUIL ITER 17 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1349E-11 DISP CONVERGENCE VALUE = 0.5879E-12 CRITERION= 0.7779E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.2987 SCALED MAX DOF INC = -0.5879E-12 FORCE CONVERGENCE VALUE = 26.94 CRITERION= 1.474 EQUIL ITER 18 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1878E-11 DISP CONVERGENCE VALUE = 0.9095E-12 CRITERION= 0.7938E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.4282E-12 FORCE CONVERGENCE VALUE = 45.07 CRITERION= 1.504 EQUIL ITER 19 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.1063E-11 DISP CONVERGENCE VALUE = 0.4547E-12 CRITERION= 0.8100E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = -0.1914E-12 FORCE CONVERGENCE VALUE = 48.94 CRITERION= 1.535 EQUIL ITER 20 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.9998E-12 DISP CONVERGENCE VALUE = 0.7731E-12 CRITERION= 0.8265E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.7732 SCALED MAX DOF INC = -0.7731E-12 FORCE CONVERGENCE VALUE = 37.09 CRITERION= 1.567 EQUIL ITER 21 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2124E-11 DISP CONVERGENCE VALUE = 0.4547E-12 CRITERION= 0.8434E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.5000E-01 SCALED MAX DOF INC = 0.2455E-12 FORCE CONVERGENCE VALUE = 31.25 CRITERION= 1.599 EQUIL ITER 22 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2221E-11 DISP CONVERGENCE VALUE = 0.1794E-11 CRITERION= 0.8606E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.7171 SCALED MAX DOF INC = 0.1794E-11 FORCE CONVERGENCE VALUE = 59.75 CRITERION= 1.632 EQUIL ITER 23 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.2837E-11 DISP CONVERGENCE VALUE = 0.2156E-11 CRITERION= 0.8782E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.6926 SCALED MAX DOF INC = -0.2156E-11 FORCE CONVERGENCE VALUE = 30.97 CRITERION= 1.664 EQUIL ITER 24 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2035E-11 DISP CONVERGENCE VALUE = 0.1364E-11 CRITERION= 0.8961E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.6702 SCALED MAX DOF INC = 0.1364E-11 FORCE CONVERGENCE VALUE = 31.12 CRITERION= 1.698 EQUIL ITER 25 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -0.4520E-11 DISP CONVERGENCE VALUE = 0.2399E-11 CRITERION= 0.8961E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.4792 SCALED MAX DOF INC = -0.2399E-11 FORCE CONVERGENCE VALUE = 47.02 CRITERION= 1.698 EQUIL ITER 26 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 0.2002E-11 DISP CONVERGENCE VALUE = 0.2077E-11 CRITERION= 0.8961E-04 <<< CONVERGED LINE SEARCH PARAMETER = 0.9135 SCALED MAX DOF INC = 0.2077E-11 FORCE CONVERGENCE VALUE = 60.31 CRITERION= 1.698 *** ERROR *** CP = 222.078 TIME= 09:21:57 Solution not converged at time 1.E-02 (load step 1 substep 1). Run terminated. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 Max. Penetration of -1.955413609E-10 has been detected between contact element 1808 and target element 1806. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Contact element 1808 has Max. Elastic slip distance of 7.510964204E-08. Max. Total sliding distance 7.510964204E-08. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 7.821654435E-03. Max. Friction stress/force 0.31859951. Max. Normal stiffness 40000000. Min. Normal stiffness 40000000. Max. Tangential stiffness 4241792.41. Min. Tangential stiffness 4241792.41. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 23 Max. Penetration of -4.93336618E-06 has been detected between contact element 1885 and target element 1906. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 10000.0002. Contact element 1879 has Max. Elastic slip distance of 1.134545518E-06. Max. Total sliding distance 1.134545518E-06. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 5 target elements. Max. Pressure/force 5.514540289E-05. Max. Friction stress/force 1.435408664E-06. Max. Normal stiffness 11.1780478. Min. Normal stiffness 11.1780478. Max. Tangential stiffness 1.26518385. Min. Tangential stiffness 1.26518385. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 24 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 25 Max. Penetration of -2.756195613E-06 has been detected between contact element 1950 and target element 2006. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 99999.9981. Contact element 1947 has Max. Elastic slip distance of 1.430480623E-04. Max. Total sliding distance 1.430480623E-04. Max. Pinball distance 55.5555556. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 3.348357635E-05. Max. Friction stress/force 1.630758038E-04. Max. Normal stiffness 12.148476. Min. Normal stiffness 12.148476. Max. Tangential stiffness 1.14000708. Min. Tangential stiffness 1.14000708. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 26 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 27 Max. Penetration of -2.829978257E-06 has been detected between contact element 2032 and target element 2092. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 24999.9992. Contact element 2031 has Max. Elastic slip distance of 8.504368658E-05. Max. Total sliding distance 8.504368658E-05. Max. Pinball distance 55.5555556. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 5.583044962E-04. Max. Friction stress/force 1.655069868E-03. Max. Normal stiffness 197.282256. Min. Normal stiffness 197.282256. Max. Tangential stiffness 19.4614078. Min. Tangential stiffness 19.4614078. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 28 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 29 Max. Penetration of -1.000444172E-11 has been detected between contact element 2135 and target element 2177. Max. Geometrical penetration of -1.011812856E-11 has been detected between contact element 2135 and target element 2177. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Contact element 2115 has the highest number of status changes (total 2) during this substep. Max. Total sliding distance 1.031139618E-08. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 7.302485612E-05. Max. Normal stiffness 7299243.49. Min. Normal stiffness 7299243.49. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 30 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 33 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 34 Max. Penetration of -4.512230589E-10 has been detected between contact element 2936 and target element 2934. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Contact element 2936 has Max. Elastic slip distance of 6.550230854E-08. Max. Total sliding distance 6.550230854E-08. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.804892236E-02. Max. Friction stress/force 0.277847195. Max. Normal stiffness 40000000. Min. Normal stiffness 40000000. Max. Tangential stiffness 4241792.41. Min. Tangential stiffness 4241792.41. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 35 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 36 Max. Penetration of -3.781224223E-10 has been detected between contact element 2940 and target element 2938. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Contact element 2940 has Max. Elastic slip distance of 6.549365409E-08. Max. Total sliding distance 6.549365409E-08. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.512489689E-02. Max. Friction stress/force 0.277810485. Max. Normal stiffness 40000000. Min. Normal stiffness 40000000. Max. Tangential stiffness 4241792.41. Min. Tangential stiffness 4241792.41. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 41 Max. Penetration of -2.686479547E-06 has been detected between contact element 3098 and target element 3140. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 99999.9981. Contact element 3099 has Max. Elastic slip distance of 1.307774736E-04. Max. Total sliding distance 1.307774736E-04. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 3.263663243E-05. Max. Friction stress/force 1.490872457E-04. Max. Normal stiffness 12.148476. Min. Normal stiffness 12.148476. Max. Tangential stiffness 1.14000708. Min. Tangential stiffness 1.14000708. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 42 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 43 Max. Penetration of -2.754580123E-06 has been detected between contact element 3164 and target element 3224. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 24999.9993. Contact element 3163 has Max. Elastic slip distance of 8.169636229E-05. Max. Total sliding distance 8.169636229E-05. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 5.434297827E-04. Max. Friction stress/force 1.589926224E-03. Max. Normal stiffness 197.282257. Min. Normal stiffness 197.282257. Max. Tangential stiffness 19.4614078. Min. Tangential stiffness 19.4614078. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 44 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 45 Max. Penetration of -2.64389746E-06 has been detected between contact element 3249 and target element 3291. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 99999.9981. Contact element 3247 has Max. Elastic slip distance of 1.306190154E-04. Max. Total sliding distance 1.306190154E-04. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 3.211932496E-05. Max. Friction stress/force 1.489066023E-04. Max. Normal stiffness 12.148476. Min. Normal stiffness 12.148476. Max. Tangential stiffness 1.14000708. Min. Tangential stiffness 1.14000708. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 46 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 47 Max. Penetration of -2.810518481E-06 has been detected between contact element 3350 and target element 3374. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 24999.9993. Contact element 3351 has Max. Elastic slip distance of 8.15581322E-05. Max. Total sliding distance 8.15581322E-05. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 5.544654281E-04. Max. Friction stress/force 1.587236072E-03. Max. Normal stiffness 197.282257. Min. Normal stiffness 197.282257. Max. Tangential stiffness 19.4614078. Min. Tangential stiffness 19.4614078. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 48 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 49 Max. Penetration of -9.777068044E-12 has been detected between contact element 3415 and target element 3477. Max. Geometrical penetration of -1.000444172E-11 has been detected between contact element 3415 and target element 3477. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Max. Total sliding distance 4.547473509E-13. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 7.13652003E-05. Max. Normal stiffness 7299243.49. Min. Normal stiffness 7299243.49. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 50 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 53 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 54 Max. Penetration of -3.781224223E-10 has been detected between contact element 4236 and target element 4234. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Contact element 4236 has Max. Elastic slip distance of 6.549365436E-08. Max. Total sliding distance 6.549365436E-08. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.512489689E-02. Max. Friction stress/force 0.277810486. Max. Normal stiffness 40000000. Min. Normal stiffness 40000000. Max. Tangential stiffness 4241792.41. Min. Tangential stiffness 4241792.41. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 55 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 56 Max. Penetration of -4.506546247E-10 has been detected between contact element 4240 and target element 4238. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Contact element 4240 has Max. Elastic slip distance of 6.550230825E-08. Max. Total sliding distance 6.550230825E-08. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 1.802618499E-02. Max. Friction stress/force 0.277847194. Max. Normal stiffness 40000000. Min. Normal stiffness 40000000. Max. Tangential stiffness 4241792.41. Min. Tangential stiffness 4241792.41. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 57 Max. Penetration of -3.310421163E-06 has been detected between contact element 4255 and target element 4289. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 40000.0009. Contact element 4259 has Max. Elastic slip distance of 8.142723791E-07. Max. Total sliding distance 8.142723791E-07. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 5 target elements. Max. Pressure/force 6.254898617E-04. Max. Friction stress/force 1.645068062E-05. Max. Normal stiffness 188.945705. Min. Normal stiffness 188.945705. Max. Tangential stiffness 20.2029211. Min. Tangential stiffness 20.2029211. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 58 *** NOTE *** CP = 222.078 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 61 Max. Penetration of -2.64389746E-06 has been detected between contact element 4397 and target element 4439. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 99999.9981. Contact element 4399 has Max. Elastic slip distance of 1.306190155E-04. Max. Total sliding distance 1.306190155E-04. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 3.211932496E-05. Max. Friction stress/force 1.489066024E-04. Max. Normal stiffness 12.148476. Min. Normal stiffness 12.148476. Max. Tangential stiffness 1.14000708. Min. Tangential stiffness 1.14000708. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 62 *** NOTE *** CP = 222.094 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 69 Max. Penetration of -1.091393642E-11 has been detected between contact element 4734 and target element 4776. For total 21 contact elements, there are 21 elements are in contact. Contacting area 125050. Contact element 4715 has the highest number of status changes (total 2) during this substep. Max. Total sliding distance 1.031148584E-08. Max. Pinball distance 54.8001996. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 7.96634794E-05. Max. Normal stiffness 7299243.49. Min. Normal stiffness 7299243.49. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 70 *** NOTE *** CP = 222.094 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 71 *** NOTE *** CP = 222.094 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 72 Max. Penetration of -6.125361006E-06 has been detected between contact element 5241 and target element 4881. For total 189 contact elements, there are 189 elements are in contact. There are 189 elements are in sticking. Contacting area 2499999.68. Contact element 5240 has Max. Elastic slip distance of 1.850987678E-04. Max. Total sliding distance 1.850987678E-04. Max. Pinball distance 17.2721651. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 2.067050038E-05. Max. Friction stress/force 4.684724883E-05. Max. Normal stiffness 3.37457668. Min. Normal stiffness 3.37457668. Max. Tangential stiffness 0.253093251. Min. Tangential stiffness 0.253093251. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 73 *** NOTE *** CP = 222.094 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 74 Max. Penetration of -1.955413609E-10 has been detected between contact element 5536 and target element 5534. For total 1 contact elements, there are 1 elements are in contact. There are 1 elements are in sticking. Contacting area 50. Contact element 5536 has Max. Elastic slip distance of 7.510964232E-08. Max. Total sliding distance 7.510964232E-08. Max. Pinball distance 25. One of the contact searching regions contains at least 1 target elements. Max. Pressure/force 7.821654435E-03. Max. Friction stress/force 0.318599511. Max. Normal stiffness 40000000. Min. Normal stiffness 40000000. Max. Tangential stiffness 4241792.41. Min. Tangential stiffness 4241792.41. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 75 Max. Penetration of -5.686902761E-06 has been detected between contact element 5547 and target element 5595. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 40000.0014. Contact element 5547 has Max. Elastic slip distance of 2.181346042E-06. Max. Total sliding distance 2.181346042E-06. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 5 target elements. Max. Pressure/force 1.074515853E-03. Max. Friction stress/force 4.406956196E-05. Max. Normal stiffness 188.945705. Min. Normal stiffness 188.945705. Max. Tangential stiffness 20.2029211. Min. Tangential stiffness 20.2029211. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 76 *** NOTE *** CP = 222.094 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 77 Max. Penetration of -4.933366088E-06 has been detected between contact element 5605 and target element 5653. For total 9 contact elements, there are 9 elements are in contact. There are 9 elements are in sticking. Contacting area 10000.0002. Contact element 5611 has Max. Elastic slip distance of 1.134545838E-06. Max. Total sliding distance 1.134545838E-06. Max. Pinball distance 59.5238095. One of the contact searching regions contains at least 5 target elements. Max. Pressure/force 5.514540187E-05. Max. Friction stress/force 1.435409069E-06. Max. Normal stiffness 11.1780478. Min. Normal stiffness 11.1780478. Max. Tangential stiffness 1.26518385. Min. Tangential stiffness 1.26518385. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 78 *** NOTE *** CP = 222.094 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 79 Max. Penetration of -2.756195499E-06 has been detected between contact element 5692 and target element 5734. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 99999.9981. Contact element 5695 has Max. Elastic slip distance of 1.430480623E-04. Max. Total sliding distance 1.430480623E-04. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 3.3483575E-05. Max. Friction stress/force 1.630758038E-04. Max. Normal stiffness 12.148476. Min. Normal stiffness 12.148476. Max. Tangential stiffness 1.14000708. Min. Tangential stiffness 1.14000708. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 80 *** NOTE *** CP = 222.094 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 81 Max. Penetration of -2.829978712E-06 has been detected between contact element 5760 and target element 5820. For total 21 contact elements, there are 21 elements are in contact. There are 21 elements are in sticking. Contacting area 24999.9992. Contact element 5759 has Max. Elastic slip distance of 8.504368664E-05. Max. Total sliding distance 8.504368664E-05. Max. Pinball distance 55.5555555. One of the contact searching regions contains at least 4 target elements. Max. Pressure/force 5.583045864E-04. Max. Friction stress/force 1.655069869E-03. Max. Normal stiffness 197.282257. Min. Normal stiffness 197.282257. Max. Tangential stiffness 19.4614078. Min. Tangential stiffness 19.4614078. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 82 *** NOTE *** CP = 222.094 TIME= 09:21:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 125 Max. Penetration of -1.292166374E-11 has been detected between contact element 6969 and target element 6989. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Total sliding distance 8.842562238E-10. Max. Pinball distance 45.0000018. Max. Pressure/force 1.72288843E-03. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 127 Max. Penetration of -7.50044471E-12 has been detected between contact element 7007 and target element 7027. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Total sliding distance 3.828972694E-10. Max. Pinball distance 45.0000018. Max. Pressure/force 1.000059255E-03. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 129 Max. Penetration of -7.50044471E-12 has been detected between contact element 7032 and target element 7052. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Total sliding distance 3.801687853E-10. Max. Pinball distance 45.0000018. Max. Pressure/force 1.000059255E-03. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 131 Max. Penetration of -1.292166374E-11 has been detected between contact element 7073 and target element 7093. For total 20 contact elements, there are 20 elements are in contact. Contacting area 50000. Max. Total sliding distance 8.808456187E-10. Max. Pinball distance 45.0000018. Max. Pressure/force 1.72288843E-03. Max. Normal stiffness 133333328. Min. Normal stiffness 133333328. ************************************************* *** WARNING *** CP = 222.094 TIME= 09:21:57 The unconverged solution (identified as time 1 substep 999999) is output for analysis debug purposes. Results should not be used for any other purpose. R E S T A R T I N F O R M A T I O N REASON FOR TERMINATION. . . . . . . . . .UNCONVERGED SOLUTION RESTART BY RE-RUNNING THE ANALYSIS ALL CURRENT ANSYS DATA WRITTEN TO FILE NAME= file.db FOR POSSIBLE RESUME FROM THIS POINT NUMBER OF WARNING MESSAGES ENCOUNTERED= 38 NUMBER OF ERROR MESSAGES ENCOUNTERED= 1 ***** PROBLEM TERMINATED BY INDICATED ERROR(S) OR BY END OF INPUT DATA ***** +--------- D I S T R I B U T E D A N S Y S S T A T I S T I C S ------------+ Release: Release 18.2 Build: 18.2 Update: UP20170726 Platform: WINDOWS x64 Date Run: 03/21/2018 Time: 09:21 Process ID: 9616 Operating System: Windows 10 (Build: 16299) Processor Model: Intel(R) Core(TM) i5-8250U CPU @ 1.60GHz Compiler: Intel(R) FORTRAN Compiler Version 15.0.7 (Build: 20160518) Intel(R) C/C++ Compiler Version 15.0.7 (Build: 20160518) Intel(R) Math Kernel Library Version 2017.0.2 Product Build 20170126 Number of machines requested : 1 Total number of cores available : 8 Number of physical cores available : 4 Number of processes requested : 2 Number of threads per process requested : 1 Total number of cores requested : 2 (Distributed Memory Parallel) MPI Type: INTELMPI MPI Version: Intel(R) MPI Library 5.1.3 for Windows* OS GPU Acceleration: Not Requested Job Name: file0 Input File: dummy.dat Core Machine Name Working Directory ----------------------------------------------------- 0 Hannchen C:\Users\hanna\Documents\Studium\KIT Master\4_Masterarbeit\3_Modellierung\Ansys\_ProjectScratch\Scr20A1 1 Hannchen C:\Users\hanna\Documents\Studium\KIT Master\4_Masterarbeit\3_Modellierung\Ansys\_ProjectScratch\Scr20A1 Latency time from master to core 1 = 0.895 microseconds Communication speed from master to core 1 = 4865.92 MB/sec Total CPU time for main thread : 221.7 seconds Total CPU time summed for all threads : 222.5 seconds Elapsed time spent pre-processing model (/PREP7) : 0.1 seconds Elapsed time spent solution - preprocessing : 0.2 seconds Elapsed time spent computing solution : 227.2 seconds Elapsed time spent solution - postprocessing : 0.0 seconds Elapsed time spent post-processing model (/POST1) : 0.0 seconds Equation solver used : Sparse (symmetric) Equation solver computational rate : 4732.8 Mflops Maximum total memory used : 291.0 MB Maximum total memory allocated : 3136.0 MB Total physical memory available : 8 GB +------ E N D D I S T R I B U T E D A N S Y S S T A T I S T I C S -------+ *---------------------------------------------------------------------------* | | | DISTRIBUTED ANSYS RUN COMPLETED | | | |---------------------------------------------------------------------------| | | | Ansys Release 18.2 Build 18.2 UP20170726 WINDOWS x64 | | | |---------------------------------------------------------------------------| | | | Database Requested(-db) 1024 MB Scratch Memory Requested 1024 MB | | Maximum Database Used 10 MB Maximum Scratch Memory Used 141 MB | | | |---------------------------------------------------------------------------| | | | CP Time (sec) = 222.469 Time = 09:21:58 | | Elapsed Time (sec) = 230.000 Date = 03/21/2018 | | | *---------------------------------------------------------------------------*