Solver-Ausgabe ANSYS Multiphysics *------------------------------------------------------------------* | | | 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 14.0 LEGAL NOTICES * *************************************************************** * * * Copyright 2011 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). * * * *************************************************************** ***** ANSYS COMMAND LINE ARGUMENTS ***** BATCH MODE REQUESTED (-b) = NOLIST INPUT FILE COPY MODE (-c) = COPY 4 PARALLEL CPUS REQUESTED START-UP FILE MODE = NOREAD STOP FILE MODE = NOREAD 00000000 VERSION=WINDOWS x64 RELEASE= 14.0 UP20111024 CURRENT JOBNAME=file 09:05:43 JUN 18, 2012 CP= 1.466 PARAMETER _DS_PROGRESS = 999.0000000 /INPUT FILE= ds.dat LINE= 0 DO NOT WRITE ELEMENT RESULTS INTO DATABASE *GET _WALLSTRT FROM ACTI ITEM=TIME WALL VALUE= 9.09527778 TITLE= runder_stempel--Statisch-mechanisch (M5) SET PARAMETER DIMENSIONS ON _WB_PROJECTSCRATCH_DIR TYPE=STRI DIMENSIONS= 248 1 1 PARAMETER _WB_PROJECTSCRATCH_DIR(1) = C:\Users\womwom\Desktop\ansys\_ProjectScratch\Scr436E\ SET PARAMETER DIMENSIONS ON _WB_SOLVERFILES_DIR TYPE=STRI DIMENSIONS= 248 1 1 PARAMETER _WB_SOLVERFILES_DIR(1) = C:\Users\womwom\Desktop\ansys\runder_stempel_files\dp0\SYS-14\MECH\ SET PARAMETER DIMENSIONS ON _WB_USERFILES_DIR TYPE=STRI DIMENSIONS= 248 1 1 PARAMETER _WB_USERFILES_DIR(1) = C:\Users\womwom\Desktop\ansys\runder_stempel_files\user_files\ --- Data in consistent NMM units. 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 1 ***** ANSYS - ENGINEERING ANALYSIS SYSTEM RELEASE 14.0 ***** ANSYS Multiphysics 00000000 VERSION=WINDOWS x64 09:05:43 JUN 18, 2012 CP= 1.498 runder_stempel--Statisch-mechanisch (M5) ***** ANSYS ANALYSIS DEFINITION (PREP7) ***** *********** Nodes for the whole assembly *********** *********** Elements for Body 1 "Stempel2" *********** *********** Send Body as a Rigid Body *********** *********** Elements for Body 2 "Stempel3" *********** *********** Elements for Body 3 "Stempel4" *********** *********** Elements for Body 4 "Stempel1" *********** *********** Elements for Body 5 "Schalenk_rper" *********** *********** Elements for Body 6 "Schalenk_rper" *********** *********** Elements for Body 7 "Stempelhalterung2" *********** *********** Elements for Body 8 "Stempelhalterung3" *********** *********** Elements for Body 9 "Stempelhalterung4" *********** *********** Elements for Body 10 "Stempelhalterung1" *********** *********** Send User Defined Coordinate System(s) *********** *********** Set Reference Temperature *********** *********** Send Materials *********** *********** Send Sheet Properties *********** *********** Create Contact "Rau - Schalenkörper bis Stempel1" *********** Real Contact Set For Above Contact Is 12 & 11 *********** Create Contact "Rau - Schalenkörper bis Stempel2" *********** Real Contact Set For Above Contact Is 15 & 14 *********** Create Contact "Rau - Schalenkörper bis Stempel3" *********** Real Contact Set For Above Contact Is 17 & 16 *********** Create Contact "Rau - Schalenkörper bis Stempel4" *********** Real Contact Set For Above Contact Is 19 & 18 *********** Create Contact "Rau - Schalenkörper bis Schalenkörper" *********** Real Contact Set For Above Contact Is 21 & 20 *********** Define Pressure Using Surface Effect Elements *********** *********** Create Remote Point "Interner Fernpunkt 2" *********** *********** Create Remote Point "Interner Fernpunkt 16" *********** *********** Create Remote Point "Interner Fernpunkt 18" *********** *********** Create Remote Point "Interner Fernpunkt 20" *********** *********** Create Remote Point "Interner Fernpunkt 22" *********** *********** Create Remote Point "Interner Fernpunkt 23" *********** *********** Create Remote Point "Interner Fernpunkt 24" *********** *********** Create Remote Point "Interner Fernpunkt 25" *********** *********** Create Remote Point "Interner Fernpunkt 26" *********** *********** Create Remote Point "Interner Fernpunkt 27" *********** *********** Create Remote Point "Interner Fernpunkt 28" *********** *********** Create Remote Point "Interner Fernpunkt 29" *********** *********** Create Remote Point "Interner Fernpunkt 30" *********** *********** Create Remote Point "Interner Fernpunkt 32" *********** *********** Create Joint "Fixiert - Erde bis Schalenkörper_Interpolationsschich *********** Create Joint "Fixiert - Erde bis Schalenkörper" *********** *********** Create Joint "Allgemein - Erde bis Stempelhalterung1" *********** Real Contact Set For Above Joint Is 49 *********** Create Joint "Allgemein - Erde bis Stempelhalterung3" *********** Real Contact Set For Above Joint Is 50 *********** Create Joint "Allgemein - Erde bis Stempelhalterung2" *********** Real Contact Set For Above Joint Is 51 *********** Create Joint "Allgemein - Erde bis Stempelhalterung4" *********** Real Contact Set For Above Joint Is 52 *********** Create Joint "Kugelförmig - J_Stempelhalterung-1 bis Stempel2" **** Real Contact Set For Above Joint Is 53 *********** Create Joint "Kugelförmig - J_Stempelhalterung-1 bis Stempel3" **** Real Contact Set For Above Joint Is 54 *********** Create Joint "Kugelförmig - J_Stempelhalterung-1 bis Stempel4" **** Real Contact Set For Above Joint Is 55 *********** Create Joint "Kugelförmig - J_Stempelhalterung-1 bis Stempel1" **** Real Contact Set For Above Joint Is 56 *********** 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 *********** *********** Create Joint Drivers ********** ***** ROUTINE COMPLETED ***** CP = 3.713 --- Number of total nodes = 36319 --- Number of contact elements = 12386 --- Number of spring elements = 240 --- Number of solid elements = 22259 --- Number of total elements = 34781 *GET _WALLBSOL FROM ACTI ITEM=TIME WALL VALUE= 9.09555556 **************************************************************************** ************************* SOLUTION ******************************** **************************************************************************** ***** ANSYS SOLUTION ROUTINE ***** PERFORM A STATIC ANALYSIS THIS WILL BE A NEW ANALYSIS LARGE DEFORMATION ANALYSIS NEW SOLUTION CONTROL OPTION IS ACTIVATED, THE FOLLOWING COMMANDS ARE RESET TO NEW DEFAULTS: AUTOTS, DELTIM, NSUB, CNVTOL, LNSRCH, PRED, NROPT, TINTP, CUTCONTROL, OPNCONTROL, MONITOR, NEQIT, SSTIF, KBC. CONTACT TIME PREDICTIONS ARE BASED ON ELEMENT KEYOPT(7) SPECIFIED CONTACT INFORMATION PRINTOUT LEVEL 1 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 **************** SELECT FOR ITEM=TYPE COMPONENT= IN RANGE 22 TO 22 STEP 1 676 ELEMENTS (OF 34781 DEFINED) SELECTED BY ESEL COMMAND. SELECT ALL NODES HAVING ANY ELEMENT IN ELEMENT SET. 729 NODES (OF 36319 DEFINED) SELECTED FROM 676 SELECTED ELEMENTS BY NSLE COMMAND. GENERATE SURFACE LOAD PRES ON SURFACE DEFINED BY ALL SELECTED NODES SET ACCORDING TO TABLE PARAMETER = _LOADVARI262 NUMBER OF PRES ELEMENT FACE LOADS STORED = 676 ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 36319 STEP 1 36319 NODES (OF 36319 DEFINED) SELECTED BY NSEL COMMAND. ALL SELECT FOR ITEM=ELEM COMPONENT= IN RANGE 1 TO 35093 STEP 1 34781 ELEMENTS (OF 34781 DEFINED) SELECTED BY ESEL COMMAND. *********** Create Acceleration *********** SET PARAMETER DIMENSIONS ON _ACELX TYPE=TABL DIMENSIONS= 2 1 1 TIME PARAMETER _ACELX(1,0,1) = 0.000000000 PARAMETER _ACELX(2,0,1) = 1.000000000 PARAMETER _ACELX(1,1,1) = 0.000000000 PARAMETER _ACELX(2,1,1) = 0.000000000 SET PARAMETER DIMENSIONS ON _ACELY TYPE=TABL DIMENSIONS= 2 1 1 TIME PARAMETER _ACELY(1,0,1) = 0.000000000 PARAMETER _ACELY(2,0,1) = 1.000000000 PARAMETER _ACELY(1,1,1) = 0.000000000 PARAMETER _ACELY(2,1,1) = 0.000000000 SET PARAMETER DIMENSIONS ON _ACELZ TYPE=TABL DIMENSIONS= 2 1 1 TIME PARAMETER _ACELZ(1,0,1) = 0.000000000 PARAMETER _ACELZ(2,0,1) = 1.000000000 PARAMETER _ACELZ(1,1,1) = 0.000000000 PARAMETER _ACELZ(2,1,1) = 9806.650000 ACELX IS SET ACCORDING TO TABLE PARAMETER = _ACELX ACELY IS SET ACCORDING TO TABLE PARAMETER = _ACELY ACELZ IS SET ACCORDING TO TABLE PARAMETER = _ACELZ ALL SELECT FOR ITEM=ELEM COMPONENT= IN RANGE 1 TO 35093 STEP 1 34781 ELEMENTS (OF 34781 DEFINED) SELECTED BY ESEL COMMAND. PRINTOUT RESUMED BY /GOP SELECT FOR ITEM=TYPE COMPONENT= IN RANGE 49 TO 49 STEP 1 1 ELEMENTS (OF 34781 DEFINED) SELECTED BY ESEL COMMAND. APPLIED BOUNDARY CONDITIONS OR FORCES FOR JOINT ELEMENTS SPECIFIED VALUE FOR ALL SELECTED ELEMENTS FORCE, MOMENT, DISPLACEMENT OR ROTATION LABEL = UZ SET ACCORDING TO TABLE PARAMETER = _LOADVARI347 ALL SELECT FOR ITEM=ELEM COMPONENT= IN RANGE 1 TO 35093 STEP 1 34781 ELEMENTS (OF 34781 DEFINED) SELECTED BY ESEL COMMAND. SELECT FOR ITEM=TYPE COMPONENT= IN RANGE 50 TO 50 STEP 1 1 ELEMENTS (OF 34781 DEFINED) SELECTED BY ESEL COMMAND. APPLIED BOUNDARY CONDITIONS OR FORCES FOR JOINT ELEMENTS SPECIFIED VALUE FOR ALL SELECTED ELEMENTS FORCE, MOMENT, DISPLACEMENT OR ROTATION LABEL = UY SET ACCORDING TO TABLE PARAMETER = _LOADVARI811 ALL SELECT FOR ITEM=ELEM COMPONENT= IN RANGE 1 TO 35093 STEP 1 34781 ELEMENTS (OF 34781 DEFINED) SELECTED BY ESEL COMMAND. SELECT FOR ITEM=TYPE COMPONENT= IN RANGE 51 TO 51 STEP 1 1 ELEMENTS (OF 34781 DEFINED) SELECTED BY ESEL COMMAND. APPLIED BOUNDARY CONDITIONS OR FORCES FOR JOINT ELEMENTS SPECIFIED VALUE FOR ALL SELECTED ELEMENTS FORCE, MOMENT, DISPLACEMENT OR ROTATION LABEL = UZ SET ACCORDING TO TABLE PARAMETER = _LOADVARI830 ALL SELECT FOR ITEM=ELEM COMPONENT= IN RANGE 1 TO 35093 STEP 1 34781 ELEMENTS (OF 34781 DEFINED) SELECTED BY ESEL COMMAND. USE AUTOMATIC TIME STEPPING THIS LOAD STEP USE 5 SUBSTEPS INITIALLY THIS LOAD STEP FOR ALL DEGREES OF FREEDOM FOR AUTOMATIC TIME STEPPING: USE 1000 SUBSTEPS AS A MAXIMUM USE 1 SUBSTEPS AS A MINIMUM USE A MAXIMUM OF 40 EQUILIBRIUM ITERATIONS EACH SUBSTEP 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 = 3.947 TIME= 09:05:44 Element shape checking is currently inactive. Issue SHPP,ON or SHPP,WARN to reactivate, if desired. *** NOTE *** CP = 4.259 TIME= 09:05:44 The model data was checked and warning messages were found. Please review output or errors file ( C:\Users\womwom\Desktop\ansys\_ProjectScratch\Scr436E\file.err ) for these warning messages. *** SELECTION OF ELEMENT TECHNOLOGIES FOR APPLICABLE ELEMENTS *** --- GIVE SUGGESTIONS AND RESET THE KEY OPTIONS --- ELEMENT TYPE 2 IS SOLID187. IT IS NOT ASSOCIATED WITH FULLY INCOMPRESSIBLE HYPERELASTIC MATERIALS. NO SUGGESTION IS AVAILABLE AND NO RESETTING IS NEEDED. ELEMENT TYPE 3 IS SOLID187. IT IS NOT ASSOCIATED WITH FULLY INCOMPRESSIBLE HYPERELASTIC MATERIALS. NO SUGGESTION IS AVAILABLE AND NO RESETTING IS NEEDED. ELEMENT TYPE 4 IS SOLID187. IT IS NOT ASSOCIATED WITH FULLY INCOMPRESSIBLE HYPERELASTIC MATERIALS. NO SUGGESTION IS AVAILABLE AND NO RESETTING IS NEEDED. ELEMENT TYPE 5 IS SHELL181. IT IS ASSOCIATED WITH HYPERELASTIC MATERIALS ONLY. KEYOPT(3)=0 AND KEYOPT(8)=0 ARE SUGGESTED. THEY HAVE BEEN RESET. KEYOPT(1-12)= 0 0 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 6 IS SHELL181. IT IS ASSOCIATED WITH HYPERELASTIC MATERIALS ONLY. KEYOPT(3)=0 AND KEYOPT(8)=0 ARE SUGGESTED. THEY HAVE BEEN RESET. KEYOPT(1-12)= 0 0 0 0 0 0 0 0 0 0 0 0 ELEMENT TYPE 7 IS SOLID187. IT IS NOT ASSOCIATED WITH FULLY INCOMPRESSIBLE HYPERELASTIC MATERIALS. NO SUGGESTION IS AVAILABLE AND NO RESETTING IS NEEDED. ELEMENT TYPE 8 IS SOLID187. IT IS NOT ASSOCIATED WITH FULLY INCOMPRESSIBLE HYPERELASTIC MATERIALS. NO SUGGESTION IS AVAILABLE AND NO RESETTING IS NEEDED. ELEMENT TYPE 9 IS SOLID187. IT IS NOT ASSOCIATED WITH FULLY INCOMPRESSIBLE HYPERELASTIC MATERIALS. NO SUGGESTION IS AVAILABLE AND NO RESETTING IS NEEDED. ELEMENT TYPE 10 IS SOLID187. IT IS NOT ASSOCIATED WITH FULLY INCOMPRESSIBLE HYPERELASTIC MATERIALS. NO SUGGESTION IS AVAILABLE AND NO RESETTING IS NEEDED. 1 ***** ANSYS - ENGINEERING ANALYSIS SYSTEM RELEASE 14.0 ***** ANSYS Multiphysics 00000000 VERSION=WINDOWS x64 09:05:44 JUN 18, 2012 CP= 4.321 runder_stempel--Statisch-mechanisch (M5) 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 NEWTON-RAPHSON OPTION . . . . . . . . . . . . .PROGRAM CHOSEN GLOBALLY ASSEMBLED MATRIX . . . . . . . . . . .SYMMETRIC *** WARNING *** CP = 4.446 TIME= 09:05:44 Material number 50 (used by element 22260 ) 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 = 4.696 TIME= 09:05:44 The step data was checked and warning messages were found. Please review output or errors file ( C:\Users\womwom\Desktop\ansys\_ProjectScratch\Scr436E\file.err ) for these warning messages. *** NOTE *** CP = 4.696 TIME= 09:05:44 This nonlinear analysis defaults to using the full Newton-Raphson solution procedure. This can be modified using the NROPT command. SOLCONTROL,ON uses sparse matrix direct solver *** NOTE *** CP = 4.758 TIME= 09:05:44 Internal nodes from 36320 to 36362 are created. 15 internal nodes are used for handling degrees of freedom on pilot nodes of rigid target surfaces. 28 internal nodes are used for non-contact elements with mixed formulation. 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 . . . . . . . . . 5 MAXIMUM NUMBER OF SUBSTEPS . . . . . . . . . 1000 MINIMUM NUMBER OF SUBSTEPS . . . . . . . . . 1 MAXIMUM NUMBER OF EQUILIBRIUM ITERATIONS. . . . 40 STEP CHANGE BOUNDARY CONDITIONS . . . . . . . . NO STRESS-STIFFENING . . . . . . . . . . . . . . . ON TERMINATE ANALYSIS IF NOT CONVERGED . . . . . .YES (EXIT) CONVERGENCE CONTROLS. . . . . . . . . . . . . .USE DEFAULTS INERTIA LOADS X Y Z ACEL . . . . . . . . . . . ._ACELX _ACELY _ACELZ 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 *** CP = 6.630 TIME= 09:05:45 Node 736 is applied on different contact pairs (real ID 13 & 14) as the pilot node. These two pairs will be merged. *** WARNING *** CP = 6.630 TIME= 09:05:45 Node 218 has been used on different contact pairs (real ID 13 & 14). These two pairs will be merged. Please check the model carefully. *** NOTE *** CP = 8.720 TIME= 09:05:47 It is highly recommended to use the auto contact setting option by issuing CNCHECK,AUTO command for this problem in order to achieve better convergence. *** NOTE *** CP = 8.720 TIME= 09:05:47 Symmetric Deformable- deformable contact pair identified by real constant set 11 and contact element type 11 has been set up. The companion pair has real constant set ID 12. 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 contact stiffness 0.13931E-06 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.0000 Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip 0.13462E-01 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 2.6924 Average contact pair depth 20.000 Pinball region factor PINB 1.0000 The resulting pinball region 20.000 *** NOTE *** CP = 8.720 TIME= 09:05:47 One of the contact searching regions contains at least 209 target elements. You may reduce the pinball radius. *WARNING*: Initial penetration is included. Rough contact is defined. *** NOTE *** CP = 8.720 TIME= 09:05:47 Max. Initial penetration 3.552713679E-15 was detected between contact element 23039 and target element 23934. **************************************** *** NOTE *** CP = 8.720 TIME= 09:05:47 Symmetric Deformable- deformable contact pair identified by real constant set 12 and contact element type 11 has been set up. The companion pair has real constant set ID 11. 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 contact stiffness 0.13931E-06 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 0.15667 Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip 0.13280E-01 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 2.6559 Average contact pair depth 1.5667 Pinball region factor PINB 1.0000 The resulting pinball region 1.5667 *WARNING*: Initial penetration is included. Rough contact is defined. *** NOTE *** CP = 8.720 TIME= 09:05:47 Max. Initial penetration 1.776356839E-15 was detected between contact element 23698 and target element 22460. **************************************** *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid target surface identified by real constant set 13. The degrees of freedom of the rigid surface are driven by the pilot node 736. Internal MPC will be built. Boundary conditions can be applied on any target node. This pair will be merged with other pair defined by real constant set 14. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-deformable contact pair identified by real constant set 14 and contact element type 14 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 736. Boundary conditions can be applied on any target node. This pair will be merged with other pair defined by real constant set 13. Contact algorithm: Augmented Lagrange method Contact detection at: Gauss integration point Contact stiffness factor FKN 1.0000 The resulting contact stiffness 0.13931E-06 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.0000 Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip 0.13462E-01 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 2.6924 Average contact pair depth 20.000 Pinball region factor PINB 1.0000 The resulting pinball region 20.000 *** NOTE *** CP = 8.720 TIME= 09:05:47 One of the contact searching regions contains at least 234 target elements. You may reduce the pinball radius. *WARNING*: Initial penetration is included. Rough contact is defined. *** NOTE *** CP = 8.720 TIME= 09:05:47 Max. Initial penetration 3.552713679E-15 was detected between contact element 24623 and target element 25105. **************************************** *** NOTE *** CP = 8.720 TIME= 09:05:47 Symmetric Deformable- deformable contact pair identified by real constant set 16 and contact element type 16 has been set up. The companion pair has real constant set ID 17. 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 contact stiffness 0.13931E-06 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.0000 Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip 0.13462E-01 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 2.6924 Average contact pair depth 20.000 Pinball region factor PINB 1.0000 The resulting pinball region 20.000 *** NOTE *** CP = 8.720 TIME= 09:05:47 One of the contact searching regions contains at least 209 target elements. You may reduce the pinball radius. *WARNING*: Initial penetration is included. Rough contact is defined. *** NOTE *** CP = 8.720 TIME= 09:05:47 Max. Initial penetration 3.552713679E-15 was detected between contact element 26063 and target element 26873. **************************************** *** NOTE *** CP = 8.720 TIME= 09:05:47 Symmetric Deformable- deformable contact pair identified by real constant set 17 and contact element type 16 has been set up. The companion pair has real constant set ID 16. 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 contact stiffness 0.13931E-06 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 0.15667 Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip 0.13280E-01 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 2.6559 Average contact pair depth 1.5667 Pinball region factor PINB 1.0000 The resulting pinball region 1.5667 *WARNING*: Initial penetration is included. Rough contact is defined. *** NOTE *** CP = 8.720 TIME= 09:05:47 Max. Initial penetration 1.776356839E-15 was detected between contact element 26614 and target element 25627. **************************************** *** NOTE *** CP = 8.720 TIME= 09:05:47 Symmetric Deformable- deformable contact pair identified by real constant set 18 and contact element type 18 has been set up. The companion pair has real constant set ID 19. 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 contact stiffness 0.13931E-06 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.0000 Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip 0.13462E-01 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 2.6924 Average contact pair depth 20.000 Pinball region factor PINB 1.0000 The resulting pinball region 20.000 *** NOTE *** CP = 8.720 TIME= 09:05:47 One of the contact searching regions contains at least 209 target elements. You may reduce the pinball radius. *WARNING*: Initial penetration is included. Rough contact is defined. *** NOTE *** CP = 8.720 TIME= 09:05:47 Max. Initial penetration 3.552713679E-15 was detected between contact element 27758 and target element 28786. **************************************** *** NOTE *** CP = 8.720 TIME= 09:05:47 Symmetric Deformable- deformable contact pair identified by real constant set 19 and contact element type 18 has been set up. The companion pair has real constant set ID 18. 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 contact stiffness 0.13931E-06 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 0.15667 Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip 0.13280E-01 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 2.6559 Average contact pair depth 1.5667 Pinball region factor PINB 1.0000 The resulting pinball region 1.5667 *WARNING*: Initial penetration is included. Rough contact is defined. *** NOTE *** CP = 8.720 TIME= 09:05:47 Max. Initial penetration 1.776356839E-15 was detected between contact element 28384 and target element 27171. **************************************** *** NOTE *** CP = 8.720 TIME= 09:05:47 Symmetric Deformable- deformable contact pair identified by real constant set 20 and contact element type 20 has been set up. The companion pair has real constant set ID 21. Both pairs should have the same behavior. *** WARNING *** CP = 8.720 TIME= 09:05:47 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 contact stiffness 0.13931E-06 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 0.80000 Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip 0.13462E-01 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 2.6924 Average contact pair depth 8.0000 User defined pinball region PINB 11.000 *** NOTE *** CP = 8.720 TIME= 09:05:47 One of the contact searching regions contains at least 121 target elements. You may reduce the pinball radius. Auto contact offset used to close gap 10.100 Initial penetration is excluded. Rough contact is defined. *** NOTE *** CP = 8.720 TIME= 09:05:47 Min. Initial gap 10 was detected between contact element 29478 and target element 30830. The gap is closed due to initial settings. **************************************** *** NOTE *** CP = 8.720 TIME= 09:05:47 Symmetric Deformable- deformable contact pair identified by real constant set 21 and contact element type 20 has been set up. The companion pair has real constant set ID 20. 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 contact stiffness 0.13931E-06 Default penetration tolerance factor FTOLN 0.10000 The resulting penetration tolerance 2.0000 Default tangent stiffness factor FKT 1.0000 Default elastic slip factor SLTOL 0.50000E-02 The resulting elastic slip 0.13462E-01 Update contact stiffness at each iteration Default Max. friction stress TAUMAX 0.10000E+21 Average contact surface length 2.6924 Average contact pair depth 20.000 User defined pinball region PINB 11.000 *** NOTE *** CP = 8.720 TIME= 09:05:47 One of the contact searching regions contains at least 121 target elements. You may reduce the pinball radius. Auto contact offset used to close gap 10.100 Initial penetration is excluded. Rough contact is defined. *** NOTE *** CP = 8.720 TIME= 09:05:47 Min. Initial gap 10 was detected between contact element 30154 and target element 28802. The gap is closed due to initial settings. **************************************** *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 23 and contact element type 23 has been set up. The degrees of freedom of rigid surface are driven by the pilot node 36059. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ Please verify constraints (including rotational degrees of freedom) on the pilot node by yourself. *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 25 and contact element type 25 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 36063 which connects to other element 22266. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 27 and contact element type 27 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 36065 which connects to other element 22260. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 29 and contact element type 29 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 36067 which connects to other element 22267. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 31 and contact element type 31 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 36069 which connects to other element 22268. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 33 and contact element type 33 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 36070 which connects to other element 22269. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 35 and contact element type 35 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 36072 which connects to other element 22270. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 37 and contact element type 37 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 36073 which connects to other element 22270. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 39 and contact element type 39 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 36074 which connects to other element 22271. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 41 and contact element type 41 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 36075 which connects to other element 22271. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 43 and contact element type 43 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 36076 which connects to other element 22272. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 45 and contact element type 45 has been set up. The degrees of freedom of the rigid surface are driven by the pilot node 36077 which connects to other element 22272. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ *** NOTE *** CP = 8.720 TIME= 09:05:47 Rigid-constraint surface identified by real constant set 47 and contact element type 47 has been set up. The degrees of freedom of rigid surface are driven by the pilot node 36079. Internal MPC will be built. The used degrees of freedom set is UX UY UZ ROTX ROTY ROTZ Please verify constraints (including rotational degrees of freedom) on the pilot node by yourself. *** NOTE *** CP = 8.783 TIME= 09:05:47 Predictor is ON by default for structural elements with rotational degrees of freedom. Use the PRED,OFF command to turn the predictor OFF if it adversely affects the convergence. The FEA model contains 0 external CE equations and 16686 internal CE equations. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 11 *** NOTE *** CP = 20.935 TIME= 09:05:51 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 12 Max. Penetration of -1.776356839E-15 has been detected between contact element 23698 and target element 22460. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 3.286151036E-22. Max. Normal stiffness 1.393060066E-07. Min. Normal stiffness 1.393060066E-07. ************************************************* *** NOTE *** CP = 20.935 TIME= 09:05:51 One of the contact searching regions contains at least 234 target elements. You may reduce the pinball radius (current value 20) for contact pair identified by real constant set 14 to speed up contact searching. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 16 *** NOTE *** CP = 20.935 TIME= 09:05:51 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 17 Max. Penetration of -1.776356839E-15 has been detected between contact element 26614 and target element 25627. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 12 target elements. Max. Pressure/force 3.286151036E-22. Max. Normal stiffness 1.393060066E-07. Min. Normal stiffness 1.393060066E-07. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 18 *** NOTE *** CP = 20.935 TIME= 09:05:51 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 Max. Penetration of -1.776356839E-15 has been detected between contact element 28384 and target element 27171. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 3.286151036E-22. Max. Normal stiffness 1.393060066E-07. Min. Normal stiffness 1.393060066E-07. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 *** NOTE *** CP = 20.998 TIME= 09:05:51 Contact pair is inactive. *** NOTE *** CP = 20.998 TIME= 09:05:51 One of the contact searching regions contains at least 144 target elements. You may reduce the pinball radius (current value 11) for contact pair identified by real constant set 21 to speed up contact searching. **** CENTER OF MASS, MASS, AND MASS MOMENTS OF INERTIA **** CALCULATIONS ASSUME ELEMENT MASS AT ELEMENT CENTROID TOTAL MASS = 0.20553E-03 MOM. OF INERTIA MOM. OF INERTIA CENTER OF MASS ABOUT ORIGIN ABOUT CENTER OF MASS XC = -16.248 IXX = 0.1451 IXX = 0.9213E-01 YC = -1.3512 IYY = 0.2206 IYY = 0.1138 ZC = 15.993 IZZ = 0.1468 IZZ = 0.9213E-01 IXY = -0.1335E-02 IXY = 0.3178E-02 IYZ = 0.1264E-02 IYZ = -0.3178E-02 IZX = 0.5423E-01 IZX = 0.8177E-03 AN AVERAGE OF THE X-, Y-, AND Z-DIRECTION MASS TERMS ARE USED FOR MASS21 ELEMENTS. *** MASS SUMMARY BY ELEMENT TYPE *** TYPE MASS 1 0.164008E-04 2 0.164012E-04 3 0.164012E-04 4 0.164012E-04 5 0.291550E-04 6 0.116620E-04 7 0.247779E-04 8 0.247779E-04 9 0.247779E-04 10 0.247779E-04 Range of element maximum matrix coefficients in global coordinates Maximum = 2331978.91 at element 4099. Minimum = 2.123856283E-39 at element 34997. *** WARNING *** CP = 21.045 TIME= 09:05:51 Coefficient ratio exceeds 1.0e8 - Check results. *** ELEMENT MATRIX FORMULATION TIMES TYPE NUMBER ENAME TOTAL CP AVE CP 1 1 MASS21 0.000 0.000000 2 1932 SOLID187 2.512 0.001300 3 1932 SOLID187 1.685 0.000872 4 1932 SOLID187 1.747 0.000904 5 676 SHELL181 0.858 0.001269 6 676 SHELL181 0.530 0.000785 7 3719 SOLID187 3.806 0.001024 8 3719 SOLID187 3.806 0.001024 9 3719 SOLID187 4.306 0.001158 10 3719 SOLID187 4.742 0.001275 11 885 CONTA174 0.296 0.000335 12 885 TARGE170 0.234 0.000264 13 236 TARGE170 0.047 0.000198 14 676 CONTA174 16.505 0.024416 15 235 TARGE170 0.062 0.000266 16 885 CONTA174 0.374 0.000423 17 885 TARGE170 0.281 0.000317 18 885 CONTA174 0.328 0.000370 19 885 TARGE170 0.187 0.000212 20 1352 CONTA174 1.108 0.000819 21 1352 TARGE170 0.140 0.000104 22 676 SURF154 0.686 0.001015 23 53 CONTA175 0.000 0.000000 24 1 TARGE170 0.000 0.000000 25 336 CONTA174 0.062 0.000186 26 1 TARGE170 0.000 0.000000 27 336 CONTA174 0.062 0.000186 28 1 TARGE170 0.000 0.000000 29 336 CONTA174 0.062 0.000186 30 1 TARGE170 0.000 0.000000 31 336 CONTA174 0.000 0.000000 32 1 TARGE170 0.000 0.000000 33 206 CONTA174 0.062 0.000303 34 1 TARGE170 0.000 0.000000 35 206 CONTA174 0.062 0.000303 36 1 TARGE170 0.000 0.000000 37 128 CONTA174 0.062 0.000488 38 1 TARGE170 0.000 0.000000 39 206 CONTA174 0.125 0.000606 40 1 TARGE170 0.000 0.000000 41 128 CONTA174 0.000 0.000000 42 1 TARGE170 0.000 0.000000 43 206 CONTA174 0.250 0.001212 44 1 TARGE170 0.000 0.000000 45 128 CONTA174 0.000 0.000000 46 1 TARGE170 0.000 0.000000 47 53 CONTA175 0.000 0.000000 48 1 TARGE170 0.000 0.000000 49 1 MPC184 0.000 0.000000 50 1 MPC184 0.000 0.000000 51 1 MPC184 0.000 0.000000 52 1 MPC184 0.000 0.000000 53 1 MPC184 0.000 0.000000 54 1 MPC184 0.000 0.000000 55 1 MPC184 0.000 0.000000 56 1 MPC184 0.000 0.000000 57 240 COMBIN14 0.562 0.002340 Time at end of element matrix formulation CP = 21.0445347. ALL CURRENT ANSYS DATA WRITTEN TO FILE NAME= file.rdb FOR POSSIBLE RESUME FROM THIS POINT FORCE CONVERGENCE VALUE = 0.2583 CRITERION= 0.1318E-02 MOMENT CONVERGENCE VALUE = 0.2596E-01 CRITERION= 0.1325E-03 SPARSE MATRIX DIRECT SOLVER. Number of equations = 93792, Maximum wavefront = 7428 *** NOTE *** CP = 21.934 TIME= 09:05:52 The initial memory allocation (-m) has been exceeded. Supplemental memory allocations are being used. Memory allocated for solver = 1748.553 MB Memory required for in-core = 381.637 MB Optimal memory required for out-of-core = 79.125 MB Minimum memory required for out-of-core = 71.950 MB *** NOTE *** CP = 23.603 TIME= 09:05:54 The 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. *** WARNING *** CP = 23.603 TIME= 09:05:54 Pivoting has been activated for the Sparse Matrix solver. The memory required may greatly exceed the predicted amount. In that event, use the BCSOPTION command to change the memory mode and/or memory size used by the Sparse Matrix solver. Sparse solver maximum pivot= 3.055717135E+13 at node 36075 UY. Sparse solver minimum pivot= -634947513 at node 13893 UX. Sparse solver minimum pivot in absolute value= 1.053911064E-12 at node 11396 ROTZ. DISP CONVERGENCE VALUE = 1650. CRITERION= 9.596 EQUIL ITER 1 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -191.9 *** ERROR *** CP = 44.601 TIME= 09:05:59 Element 6032 has excessive thickness change. *** NOTE *** CP = 44.788 TIME= 09:05:59 One or more elements have become highly distorted. Excessive distortion of elements is usually a symptom indicating the need for corrective action elsewhere. Try incrementing the load more slowly (increase the number of substeps or decrease the time step size). You may need to improve your mesh to obtain elements with better aspect ratios. Also consider the behavior of materials, contact pairs, and/or constraint equations. If this message appears in the first iteration of first substep, be sure to perform element shape checking. *** LOAD STEP 1 SUBSTEP 1 NOT COMPLETED. CUM ITER = 2 *** BEGIN BISECTION NUMBER 1 NEW TIME INCREMENT= 0.70000E-01 *** NOTE *** CP = 44.788 TIME= 09:05:59 Predictor is ON by default for structural elements with rotational degrees of freedom. Use the PRED,OFF command to turn the predictor OFF if it adversely affects the convergence. The FEA model contains 0 external CE equations and 16686 internal CE equations. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 11 *** NOTE *** CP = 56.925 TIME= 09:06:03 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 12 Max. Penetration of -1.776356839E-15 has been detected between contact element 23698 and target element 22460. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 6.572302169E-23. Max. Normal stiffness 2.786120173E-08. Min. Normal stiffness 2.786120173E-08. ************************************************* *** NOTE *** CP = 56.925 TIME= 09:06:03 One of the contact searching regions contains at least 234 target elements. You may reduce the pinball radius (current value 20) for contact pair identified by real constant set 14 to speed up contact searching. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 16 *** NOTE *** CP = 56.925 TIME= 09:06:03 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 17 Max. Penetration of -1.776356839E-15 has been detected between contact element 26614 and target element 25627. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 12 target elements. Max. Pressure/force 6.572302169E-23. Max. Normal stiffness 2.786120173E-08. Min. Normal stiffness 2.786120173E-08. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 18 *** NOTE *** CP = 56.925 TIME= 09:06:03 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 Max. Penetration of -1.776356839E-15 has been detected between contact element 28384 and target element 27171. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 6.572302169E-23. Max. Normal stiffness 2.786120173E-08. Min. Normal stiffness 2.786120173E-08. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 *** NOTE *** CP = 56.925 TIME= 09:06:03 Contact pair is inactive. *** NOTE *** CP = 56.925 TIME= 09:06:03 One of the contact searching regions contains at least 144 target elements. You may reduce the pinball radius (current value 11) for contact pair identified by real constant set 21 to speed up contact searching. Range of element maximum matrix coefficients in global coordinates Maximum = 2331978.91 at element 4099. Minimum = 2.123856283E-39 at element 34997. *** WARNING *** CP = 56.987 TIME= 09:06:03 Coefficient ratio exceeds 1.0e8 - Check results. FORCE CONVERGENCE VALUE = 0.9040E-01 CRITERION= 0.4612E-03 MOMENT CONVERGENCE VALUE = 0.9088E-02 CRITERION= 0.5102E-04 SPARSE MATRIX DIRECT SOLVER. Number of equations = 93792, Maximum wavefront = 7428 Memory allocated for solver = 1748.553 MB Memory required for in-core = 381.637 MB Optimal memory required for out-of-core = 79.125 MB Minimum memory required for out-of-core = 71.950 MB *** NOTE *** CP = 59.499 TIME= 09:06:05 The 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. *** WARNING *** CP = 59.499 TIME= 09:06:05 Pivoting has been activated for the Sparse Matrix solver. The memory required may greatly exceed the predicted amount. In that event, use the BCSOPTION command to change the memory mode and/or memory size used by the Sparse Matrix solver. Sparse solver maximum pivot= 3.055717135E+13 at node 36075 UY. Sparse solver minimum pivot= -633729310 at node 13893 UX. Sparse solver minimum pivot in absolute value= 1.011541603E-12 at node 11396 ROTZ. DISP CONVERGENCE VALUE = 1196. CRITERION= 8.221 EQUIL ITER 1 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -164.4 *** ERROR *** CP = 80.138 TIME= 09:06:11 Element 6032 has excessive thickness change. *** NOTE *** CP = 80.216 TIME= 09:06:11 One or more elements have become highly distorted. Excessive distortion of elements is usually a symptom indicating the need for corrective action elsewhere. Try incrementing the load more slowly (increase the number of substeps or decrease the time step size). You may need to improve your mesh to obtain elements with better aspect ratios. Also consider the behavior of materials, contact pairs, and/or constraint equations. If this message appears in the first iteration of first substep, be sure to perform element shape checking. *** LOAD STEP 1 SUBSTEP 1 NOT COMPLETED. CUM ITER = 3 *** BEGIN BISECTION NUMBER 2 NEW TIME INCREMENT= 0.24500E-01 *** NOTE *** CP = 80.216 TIME= 09:06:11 Predictor is ON by default for structural elements with rotational degrees of freedom. Use the PRED,OFF command to turn the predictor OFF if it adversely affects the convergence. The FEA model contains 0 external CE equations and 16686 internal CE equations. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 11 *** NOTE *** CP = 92.212 TIME= 09:06:15 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 12 Max. Penetration of -1.776356839E-15 has been detected between contact element 23698 and target element 22460. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 1.314460507E-23. Max. Normal stiffness 5.572240658E-09. Min. Normal stiffness 5.572240658E-09. ************************************************* *** NOTE *** CP = 92.212 TIME= 09:06:15 One of the contact searching regions contains at least 234 target elements. You may reduce the pinball radius (current value 20) for contact pair identified by real constant set 14 to speed up contact searching. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 16 *** NOTE *** CP = 92.212 TIME= 09:06:15 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 17 Max. Penetration of -1.776356839E-15 has been detected between contact element 26614 and target element 25627. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 12 target elements. Max. Pressure/force 1.314460507E-23. Max. Normal stiffness 5.572240658E-09. Min. Normal stiffness 5.572240658E-09. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 18 *** NOTE *** CP = 92.212 TIME= 09:06:15 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 Max. Penetration of -1.776356839E-15 has been detected between contact element 28384 and target element 27171. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 1.314460507E-23. Max. Normal stiffness 5.572240658E-09. Min. Normal stiffness 5.572240658E-09. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 *** NOTE *** CP = 92.212 TIME= 09:06:15 Contact pair is inactive. *** NOTE *** CP = 92.212 TIME= 09:06:15 One of the contact searching regions contains at least 144 target elements. You may reduce the pinball radius (current value 11) for contact pair identified by real constant set 21 to speed up contact searching. Range of element maximum matrix coefficients in global coordinates Maximum = 2331978.91 at element 4099. Minimum = 2.123856283E-39 at element 34997. *** WARNING *** CP = 92.275 TIME= 09:06:15 Coefficient ratio exceeds 1.0e8 - Check results. FORCE CONVERGENCE VALUE = 0.3164E-01 CRITERION= 0.1614E-03 MOMENT CONVERGENCE VALUE = 0.3181E-02 CRITERION= 0.5102E-04 SPARSE MATRIX DIRECT SOLVER. Number of equations = 93792, Maximum wavefront = 7428 Memory allocated for solver = 1748.553 MB Memory required for in-core = 382.848 MB Optimal memory required for out-of-core = 78.408 MB Minimum memory required for out-of-core = 71.937 MB *** NOTE *** CP = 94.677 TIME= 09:06:17 The 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. *** WARNING *** CP = 94.677 TIME= 09:06:17 Pivoting has been activated for the Sparse Matrix solver. The memory required may greatly exceed the predicted amount. In that event, use the BCSOPTION command to change the memory mode and/or memory size used by the Sparse Matrix solver. Sparse solver maximum pivot= 3.769604133E+14 at node 36067 ROTZ. Sparse solver minimum pivot= -633422866 at node 13893 UX. Sparse solver minimum pivot in absolute value= 1.002702651E-12 at node 11396 ROTZ. *** WARNING *** CP = 114.193 TIME= 09:06:22 There are 1 small equation solver pivot terms. DISP CONVERGENCE VALUE = 1172. CRITERION= 8.720 EQUIL ITER 1 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 174.4 *** ERROR *** CP = 115.316 TIME= 09:06:23 Element 6032 has excessive thickness change. *** NOTE *** CP = 115.456 TIME= 09:06:23 One or more elements have become highly distorted. Excessive distortion of elements is usually a symptom indicating the need for corrective action elsewhere. Try incrementing the load more slowly (increase the number of substeps or decrease the time step size). You may need to improve your mesh to obtain elements with better aspect ratios. Also consider the behavior of materials, contact pairs, and/or constraint equations. If this message appears in the first iteration of first substep, be sure to perform element shape checking. *** LOAD STEP 1 SUBSTEP 1 NOT COMPLETED. CUM ITER = 4 *** BEGIN BISECTION NUMBER 3 NEW TIME INCREMENT= 0.85750E-02 *** NOTE *** CP = 115.456 TIME= 09:06:23 Predictor is ON by default for structural elements with rotational degrees of freedom. Use the PRED,OFF command to turn the predictor OFF if it adversely affects the convergence. The FEA model contains 0 external CE equations and 16686 internal CE equations. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 11 *** NOTE *** CP = 127.546 TIME= 09:06:26 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 12 Max. Penetration of -1.776356839E-15 has been detected between contact element 23698 and target element 22460. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 2.628920953E-24. Max. Normal stiffness 1.114448106E-09. Min. Normal stiffness 1.114448106E-09. ************************************************* *** NOTE *** CP = 127.546 TIME= 09:06:26 One of the contact searching regions contains at least 234 target elements. You may reduce the pinball radius (current value 20) for contact pair identified by real constant set 14 to speed up contact searching. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 16 *** NOTE *** CP = 127.546 TIME= 09:06:26 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 17 Max. Penetration of -1.776356839E-15 has been detected between contact element 26614 and target element 25627. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 12 target elements. Max. Pressure/force 2.628920953E-24. Max. Normal stiffness 1.114448106E-09. Min. Normal stiffness 1.114448106E-09. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 18 *** NOTE *** CP = 127.546 TIME= 09:06:26 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 Max. Penetration of -1.776356839E-15 has been detected between contact element 28384 and target element 27171. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 2.628920953E-24. Max. Normal stiffness 1.114448106E-09. Min. Normal stiffness 1.114448106E-09. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 *** NOTE *** CP = 127.546 TIME= 09:06:26 Contact pair is inactive. *** NOTE *** CP = 127.546 TIME= 09:06:26 One of the contact searching regions contains at least 144 target elements. You may reduce the pinball radius (current value 11) for contact pair identified by real constant set 21 to speed up contact searching. Range of element maximum matrix coefficients in global coordinates Maximum = 2331978.91 at element 4099. Minimum = 2.123856283E-39 at element 34991. *** WARNING *** CP = 127.609 TIME= 09:06:26 Coefficient ratio exceeds 1.0e8 - Check results. FORCE CONVERGENCE VALUE = 0.1107E-01 CRITERION= 0.5650E-04 MOMENT CONVERGENCE VALUE = 0.1113E-02 CRITERION= 0.5102E-04 SPARSE MATRIX DIRECT SOLVER. Number of equations = 93792, Maximum wavefront = 7428 Memory allocated for solver = 1748.553 MB Memory required for in-core = 385.268 MB Optimal memory required for out-of-core = 78.563 MB Minimum memory required for out-of-core = 71.941 MB *** NOTE *** CP = 130.089 TIME= 09:06:28 The 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. *** WARNING *** CP = 130.089 TIME= 09:06:28 Pivoting has been activated for the Sparse Matrix solver. The memory required may greatly exceed the predicted amount. In that event, use the BCSOPTION command to change the memory mode and/or memory size used by the Sparse Matrix solver. Sparse solver maximum pivot= 2.553030848E+14 at node 36067 ROTZ. Sparse solver minimum pivot= -1.574333174E+10 at node 36065 UX. Sparse solver minimum pivot in absolute value= 1.00091944E-12 at node 11396 ROTZ. *** WARNING *** CP = 150.260 TIME= 09:06:34 There are 1 small equation solver pivot terms. DISP CONVERGENCE VALUE = 1399. CRITERION= 10.03 EQUIL ITER 1 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= 200.6 *** ERROR *** CP = 151.118 TIME= 09:06:34 Element 6032 has excessive thickness change. *** NOTE *** CP = 151.196 TIME= 09:06:34 One or more elements have become highly distorted. Excessive distortion of elements is usually a symptom indicating the need for corrective action elsewhere. Try incrementing the load more slowly (increase the number of substeps or decrease the time step size). You may need to improve your mesh to obtain elements with better aspect ratios. Also consider the behavior of materials, contact pairs, and/or constraint equations. If this message appears in the first iteration of first substep, be sure to perform element shape checking. *** LOAD STEP 1 SUBSTEP 1 NOT COMPLETED. CUM ITER = 5 *** BEGIN BISECTION NUMBER 4 NEW TIME INCREMENT= 0.30012E-02 *** NOTE *** CP = 151.196 TIME= 09:06:34 Predictor is ON by default for structural elements with rotational degrees of freedom. Use the PRED,OFF command to turn the predictor OFF if it adversely affects the convergence. The FEA model contains 0 external CE equations and 16686 internal CE equations. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 11 *** NOTE *** CP = 163.645 TIME= 09:06:38 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 12 Max. Penetration of -1.776356839E-15 has been detected between contact element 23698 and target element 22460. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 5.257841907E-25. Max. Normal stiffness 2.228896211E-10. Min. Normal stiffness 2.228896211E-10. ************************************************* *** NOTE *** CP = 163.645 TIME= 09:06:38 One of the contact searching regions contains at least 234 target elements. You may reduce the pinball radius (current value 20) for contact pair identified by real constant set 14 to speed up contact searching. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 16 *** NOTE *** CP = 163.645 TIME= 09:06:38 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 17 Max. Penetration of -1.776356839E-15 has been detected between contact element 26614 and target element 25627. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 12 target elements. Max. Pressure/force 5.257841907E-25. Max. Normal stiffness 2.228896211E-10. Min. Normal stiffness 2.228896211E-10. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 18 *** NOTE *** CP = 163.645 TIME= 09:06:38 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 Max. Penetration of -1.776356839E-15 has been detected between contact element 28384 and target element 27171. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 5.257841907E-25. Max. Normal stiffness 2.228896211E-10. Min. Normal stiffness 2.228896211E-10. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 *** NOTE *** CP = 163.645 TIME= 09:06:38 Contact pair is inactive. *** NOTE *** CP = 163.645 TIME= 09:06:38 One of the contact searching regions contains at least 144 target elements. You may reduce the pinball radius (current value 11) for contact pair identified by real constant set 21 to speed up contact searching. Range of element maximum matrix coefficients in global coordinates Maximum = 2331978.91 at element 4099. Minimum = 2.123856283E-39 at element 34997. *** WARNING *** CP = 163.661 TIME= 09:06:38 Coefficient ratio exceeds 1.0e8 - Check results. FORCE CONVERGENCE VALUE = 0.3876E-02 CRITERION= 0.5102E-04 MOMENT CONVERGENCE VALUE = 0.3896E-03 CRITERION= 0.5102E-04 SPARSE MATRIX DIRECT SOLVER. Number of equations = 93792, Maximum wavefront = 7428 Memory allocated for solver = 1748.553 MB Memory required for in-core = 383.608 MB Optimal memory required for out-of-core = 78.162 MB Minimum memory required for out-of-core = 71.809 MB *** NOTE *** CP = 165.860 TIME= 09:06:40 The 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. *** WARNING *** CP = 165.860 TIME= 09:06:40 Pivoting has been activated for the Sparse Matrix solver. The memory required may greatly exceed the predicted amount. In that event, use the BCSOPTION command to change the memory mode and/or memory size used by the Sparse Matrix solver. Sparse solver maximum pivot= 3.906072322E+14 at node 36067 ROTZ. Sparse solver minimum pivot= -633233925 at node 13893 UX. Sparse solver minimum pivot in absolute value= 3.981354815E-13 at node 11967 UY. *** WARNING *** CP = 185.548 TIME= 09:06:45 There are 1 small equation solver pivot terms. DISP CONVERGENCE VALUE = 4204. CRITERION= 13.01 EQUIL ITER 1 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -260.3 *** ERROR *** CP = 186.343 TIME= 09:06:46 Element 6032 has excessive thickness change. *** NOTE *** CP = 186.484 TIME= 09:06:46 One or more elements have become highly distorted. Excessive distortion of elements is usually a symptom indicating the need for corrective action elsewhere. Try incrementing the load more slowly (increase the number of substeps or decrease the time step size). You may need to improve your mesh to obtain elements with better aspect ratios. Also consider the behavior of materials, contact pairs, and/or constraint equations. If this message appears in the first iteration of first substep, be sure to perform element shape checking. *** LOAD STEP 1 SUBSTEP 1 NOT COMPLETED. CUM ITER = 6 *** BEGIN BISECTION NUMBER 5 NEW TIME INCREMENT= 0.10000E-02 *** NOTE *** CP = 186.484 TIME= 09:06:46 Predictor is ON by default for structural elements with rotational degrees of freedom. Use the PRED,OFF command to turn the predictor OFF if it adversely affects the convergence. The FEA model contains 0 external CE equations and 16686 internal CE equations. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 11 *** NOTE *** CP = 198.979 TIME= 09:06:49 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 12 Max. Penetration of -1.776356839E-15 has been detected between contact element 23698 and target element 22460. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 1.0515684E-25. Max. Normal stiffness 4.457792504E-11. Min. Normal stiffness 4.457792504E-11. ************************************************* *** NOTE *** CP = 198.979 TIME= 09:06:49 One of the contact searching regions contains at least 234 target elements. You may reduce the pinball radius (current value 20) for contact pair identified by real constant set 14 to speed up contact searching. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 16 *** NOTE *** CP = 198.979 TIME= 09:06:49 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 17 Max. Penetration of -1.776356839E-15 has been detected between contact element 26614 and target element 25627. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 12 target elements. Max. Pressure/force 1.0515684E-25. Max. Normal stiffness 4.457792504E-11. Min. Normal stiffness 4.457792504E-11. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 18 *** NOTE *** CP = 198.979 TIME= 09:06:49 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 Max. Penetration of -1.776356839E-15 has been detected between contact element 28384 and target element 27171. For total 209 contact elements, there are 209 elements are in contact. There are 209 elements are in sticking. Contacting area 615.750475. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 9 target elements. Max. Pressure/force 1.0515684E-25. Max. Normal stiffness 4.457792504E-11. Min. Normal stiffness 4.457792504E-11. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 *** NOTE *** CP = 198.979 TIME= 09:06:49 Contact pair is inactive. *** NOTE *** CP = 198.979 TIME= 09:06:49 One of the contact searching regions contains at least 144 target elements. You may reduce the pinball radius (current value 11) for contact pair identified by real constant set 21 to speed up contact searching. Range of element maximum matrix coefficients in global coordinates Maximum = 2331978.91 at element 4099. Minimum = 2.123856283E-39 at element 34997. *** WARNING *** CP = 199.042 TIME= 09:06:49 Coefficient ratio exceeds 1.0e8 - Check results. FORCE CONVERGENCE VALUE = 0.1291E-02 CRITERION= 0.5102E-04 MOMENT CONVERGENCE VALUE = 0.1298E-03 CRITERION= 0.5102E-04 SPARSE MATRIX DIRECT SOLVER. Number of equations = 93792, Maximum wavefront = 7428 Memory allocated for solver = 1748.553 MB Memory required for in-core = 384.357 MB Optimal memory required for out-of-core = 78.753 MB Minimum memory required for out-of-core = 71.949 MB *** NOTE *** CP = 201.647 TIME= 09:06:52 The 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. *** WARNING *** CP = 201.647 TIME= 09:06:52 Pivoting has been activated for the Sparse Matrix solver. The memory required may greatly exceed the predicted amount. In that event, use the BCSOPTION command to change the memory mode and/or memory size used by the Sparse Matrix solver. Sparse solver maximum pivot= 4.893201906E+14 at node 36067 ROTZ. Sparse solver minimum pivot= -633166738 at node 13893 UX. Sparse solver minimum pivot in absolute value= 2.273614339E-13 at node 12116 UZ. *** WARNING *** CP = 221.646 TIME= 09:06:57 There are 1 small equation solver pivot terms. DISP CONVERGENCE VALUE = 3610. CRITERION= 13.94 EQUIL ITER 1 COMPLETED. NEW TRIANG MATRIX. MAX DOF INC= -278.9 *** ERROR *** CP = 222.567 TIME= 09:06:57 Element 6032 has excessive thickness change. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 11 *** NOTE *** CP = 222.645 TIME= 09:06:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 12 Max. Penetration of -1.55913434 has been detected between contact element 23702 and target element 22493. *** WARNING *** CP = 222.645 TIME= 09:06:57 The closed penetration may be too large. Increase pinball if it is a true closed penetration. Decrease pinball if it is a false one. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 603 target elements. *** NOTE *** CP = 222.645 TIME= 09:06:57 You may reduce the pinball to speed up contact searching. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 14 *** NOTE *** CP = 222.645 TIME= 09:06:57 No contact was detected. Max. Pinball distance 20. One of the contact searching regions contains at least 62 target elements. *** NOTE *** CP = 222.645 TIME= 09:06:57 You may reduce the pinball to speed up contact searching. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 16 *** NOTE *** CP = 222.645 TIME= 09:06:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 17 *** NOTE *** CP = 222.645 TIME= 09:06:57 No contact was detected. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 603 target elements. *** NOTE *** CP = 222.645 TIME= 09:06:57 You may reduce the pinball to speed up contact searching. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 18 *** NOTE *** CP = 222.645 TIME= 09:06:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 *** NOTE *** CP = 222.645 TIME= 09:06:57 No contact was detected. Max. Pinball distance 1.56665959. One of the contact searching regions contains at least 603 target elements. *** NOTE *** CP = 222.645 TIME= 09:06:57 You may reduce the pinball to speed up contact searching. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 *** NOTE *** CP = 222.645 TIME= 09:06:57 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 21 *** NOTE *** CP = 222.645 TIME= 09:06:57 No contact was detected. Max. Pinball distance 11. One of the contact searching regions contains at least 9 target elements. ************************************************* *** WARNING *** CP = 222.645 TIME= 09:06:57 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. . . . . . . . . .ERROR IN ELEMENT FORMULATION 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= 23 NUMBER OF ERROR MESSAGES ENCOUNTERED= 6 ***** PROBLEM TERMINATED BY INDICATED ERROR(S) OR BY END OF INPUT DATA ***** +--------------------- A N S Y S S T A T I S T I C S ------------------------+ Release: 14.0 Build: UP20111024 Platform: WINDOWS x64 Date Run: 06/18/2012 Time: 09:06 Windows Process ID: 1168 Compiler: Intel(R) FORTRAN Compiler Version 11.1.0 (Build: 20100414) Microsoft(R) Visual C/C++ Compiler Version 15.0 (Build: 30729) Intel(R) Math Kernel Library Version 10.3.3 Product Build 20110314 Number of cores: 4 (Shared Memory Parallel) GPU Acceleration: Not Requested Job Name: file Working Directory: C:\Users\womwom\Desktop\ansys\_ProjectScratch\Scr436E Elapsed time spent pre-processing model (/PREP7) : 0.7 seconds Elapsed time spent solution - preprocessing : 0.6 seconds Elapsed time spent computing solution : 73.0 seconds Elapsed time spent solution - postprocessing : 0.0 seconds Elapsed time spent post-processing model (/POST1) : 0.0 seconds Equation solver computational rate : 3881.9 Mflops Equation solver effective I/O rate : 4132.3 Mbytes/sec Maximum total memory used : 2496.0 Mbytes Maximum total memory allocated : 2776.0 Mbytes +------------------ E N D A N S Y S S T A T I S T I C S -------------------+ *---------------------------------------------------------------------------* | | | ANSYS RUN COMPLETED | | | |---------------------------------------------------------------------------| | | | Release 14.0 UP20111024 WINDOWS x64 | | | |---------------------------------------------------------------------------| | | | Database Requested(-db) 512 MB Scratch Memory Requested 512 MB | | Maximum Database Used 39 MB Maximum Scratch Memory Used 1981 MB | | | |---------------------------------------------------------------------------| | | | CP Time (sec) = 223.908 Time = 09:06:58 | | Elapsed Time (sec) = 79.000 Date = 06/18/2012 | | | *---------------------------------------------------------------------------*