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Products 15.0 ANSYS Mechanical Products 15.0 ANSYS Autodyn 15.0 ANSYS LS-DYNA 15.0 ANSYS CFX (includes ANSYS CFD-Post) 15.0 ANSYS Fluent (includes ANSYS CFD-Post) 15.0 ANSYS TurboGrid 15.0 ANSYS Polyflow (includes ANSYS CFD-Post) 15.0 ANSYS Aqwa 15.0 ANSYS ICEM CFD 15.0 ANSYS Icepak (includes ANSYS CFD-Post) 15.0 Catia, Version 6 15.0 ANSYS, Inc. License Manager 15.0 ***** ANSYS COMMAND LINE ARGUMENTS ***** BATCH MODE REQUESTED (-b) = NOLIST INPUT FILE COPY MODE (-c) = COPY 2 PARALLEL CPUS REQUESTED DESIGNXPLORER REQUESTED START-UP FILE MODE = NOREAD STOP FILE MODE = NOREAD 00274528 VERSION=WINDOWS x64 RELEASE= 15.0 UP20131014 CURRENT JOBNAME=file 08:11:58 JUL 16, 2014 CP= 0.780 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= 8.19944444 TITLE= 3--Thermisch-elektrisch-stationäre Analyse (A5) SET PARAMETER DIMENSIONS ON _WB_PROJECTSCRATCH_DIR TYPE=STRI DIMENSIONS= 248 1 1 PARAMETER _WB_PROJECTSCRATCH_DIR(1) = C:\Work\Cuong\Ansys\Stromdichte vollständige Geometrie\_ProjectScratch\Scr7AF9\ SET PARAMETER DIMENSIONS ON _WB_SOLVERFILES_DIR TYPE=STRI DIMENSIONS= 248 1 1 PARAMETER _WB_SOLVERFILES_DIR(1) = C:\Work\Cuong\Ansys\Stromdichte vollständige Geometrie\3_files\dp0\SYS\MECH\ SET PARAMETER DIMENSIONS ON _WB_USERFILES_DIR TYPE=STRI DIMENSIONS= 248 1 1 PARAMETER _WB_USERFILES_DIR(1) = C:\Work\Cuong\Ansys\Stromdichte vollständige Geometrie\3_files\user_files\ --- Data in consistent MKS units. MKS UNITS SPECIFIED FOR INTERNAL LENGTH (l) = METER (M) MASS (M) = KILOGRAM (KG) TIME (t) = SECOND (SEC) TEMPERATURE (T) = CELSIUS (C) TOFFSET = 273.0 CHARGE (Q) = COULOMB FORCE (f) = NEWTON (N) (KG-M/SEC2) HEAT = JOULE (N-M) PRESSURE = PASCAL (NEWTON/M**2) ENERGY (W) = JOULE (N-M) POWER (P) = WATT (N-M/SEC) CURRENT (i) = AMPERE (COULOMBS/SEC) CAPACITANCE (C) = FARAD INDUCTANCE (L) = HENRY MAGNETIC FLUX = WEBER RESISTANCE (R) = OHM ELECTRIC POTENTIAL = VOLT INPUT UNITS ARE ALSO SET TO MKS 1 ***** ANSYS - ENGINEERING ANALYSIS SYSTEM RELEASE 15.0 ***** ANSYS Academic Research 00274528 VERSION=WINDOWS x64 08:11:58 JUL 16, 2014 CP= 0.811 3--Thermisch-elektrisch-stationäre Analyse (A5) ***** ANSYS ANALYSIS DEFINITION (PREP7) ***** *********** Nodes for the whole assembly *********** *********** Elements for Body 1 "Volumenk_rper" *********** *********** Elements for Body 2 "Volumenk_rper" *********** *********** Elements for Body 3 "Volumenk_rper" *********** *********** Elements for Body 4 "Volumenk_rper" *********** *********** Elements for Body 5 "Volumenk_rper" *********** *********** Elements for Body 6 "Volumenk_rper" *********** *********** Elements for Body 7 "Volumenk_rper" *********** *********** Elements for Body 8 "Volumenk_rper" *********** *********** Elements for Body 9 "Volumenk_rper" *********** *********** Elements for Body 10 "Volumenk_rper" *********** *********** Elements for Body 11 "Volumenk_rper" *********** *********** Send User Defined Coordinate System(s) *********** *********** Set Reference Temperature *********** *********** Send Materials *********** *********** Create Contact "Kontaktbereich" *********** Real Contact Set For Above Contact Is 13 & 12 *********** Create Contact "Kontaktbereich 2" *********** Real Contact Set For Above Contact Is 15 & 14 *********** Create Contact "Kontaktbereich 3" *********** Real Contact Set For Above Contact Is 17 & 16 *********** Create Contact "Kontaktbereich 4" *********** Real Contact Set For Above Contact Is 19 & 18 *********** Create Contact "Kontaktbereich 5" *********** Real Contact Set For Above Contact Is 21 & 20 *********** Create Contact "Kontaktbereich 6" *********** Real Contact Set For Above Contact Is 23 & 22 *********** Create Contact "Kontaktbereich 7" *********** Real Contact Set For Above Contact Is 25 & 24 *********** Create Contact "Kontaktbereich 8" *********** Real Contact Set For Above Contact Is 27 & 26 *********** Create Contact "Kontaktbereich 9" *********** Real Contact Set For Above Contact Is 29 & 28 *********** Create Contact "Kontaktbereich 10" *********** Real Contact Set For Above Contact Is 31 & 30 *********** Create Contact "Kontaktbereich 11" *********** Real Contact Set For Above Contact Is 33 & 32 *********** Create Contact "Kontaktbereich 12" *********** Real Contact Set For Above Contact Is 35 & 34 *********** Create Contact "Kontaktbereich 13" *********** Real Contact Set For Above Contact Is 37 & 36 *********** Create Contact "Kontaktbereich 14" *********** Real Contact Set For Above Contact Is 39 & 38 *********** Create Contact "Kontaktbereich 15" *********** Real Contact Set For Above Contact Is 41 & 40 *********** Create Contact "Kontaktbereich 16" *********** Real Contact Set For Above Contact Is 43 & 42 *********** Create Contact "Kontaktbereich 17" *********** Real Contact Set For Above Contact Is 45 & 44 *********** Send Named Selection as Node Component *********** *********** Send Named Selection as Node Component *********** *********** Send Named Selection as Node Component *********** *********** Send Named Selection as Node Component *********** *********** Send Named Selection as Node Component *********** *********** Send Named Selection as Node Component *********** *********** Send Named Selection as Node Component *********** *********** Send Named Selection as Node Component *********** *********** Create Current *********** *********** Create Current *********** *********** Create Current *********** *********** Create Current *********** *********** Create Current *********** *********** Create Current *********** *********** Create Current *********** *********** Create Current *********** *********** Create "ToAmbient" Radiation *********** ***** ROUTINE COMPLETED ***** CP = 1.342 --- Number of total nodes = 32656 --- Number of contact elements = 18688 --- Number of spring elements = 0 --- Number of bearing elements = 0 --- Number of solid elements = 6920 --- Number of total elements = 25608 *GET _WALLBSOL FROM ACTI ITEM=TIME WALL VALUE= 8.19944444 **************************************************************************** ************************* SOLUTION ******************************** **************************************************************************** ***** ANSYS SOLUTION ROUTINE ***** PERFORM A STATIC ANALYSIS THIS WILL BE A NEW 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 **************************************************** ******************* SOLVE FOR LS 1 **************** SELECT COMPONENT _CM126 *GET _NODNUM FROM NODE ITEM=NUM MIN VALUE= 90.0000000 SPECIFIED NODAL LOAD AMPS FOR SELECTED NODES 90 TO 90 BY 1 REAL=_LOADVARI126 IMAG= 0.00000000 COUPLED SET= 1 DIRECTION= VOLT TOTAL NODES= 345 MAXIMUM COUPLED SET NUMBER= 1 ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 32656 STEP 1 32656 NODES (OF 32656 DEFINED) SELECTED BY NSEL COMMAND. SELECT COMPONENT _CM128 *GET _NODNUM FROM NODE ITEM=NUM MIN VALUE= 1091.00000 SPECIFIED NODAL LOAD AMPS FOR SELECTED NODES 1091 TO 1091 BY 1 REAL=_LOADVARI128 IMAG= 0.00000000 COUPLED SET= 2 DIRECTION= VOLT TOTAL NODES= 430 MAXIMUM COUPLED SET NUMBER= 2 ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 32656 STEP 1 32656 NODES (OF 32656 DEFINED) SELECTED BY NSEL COMMAND. SELECT COMPONENT _CM130 *GET _NODNUM FROM NODE ITEM=NUM MIN VALUE= 2132.00000 SPECIFIED NODAL LOAD AMPS FOR SELECTED NODES 2132 TO 2132 BY 1 REAL=_LOADVARI130 IMAG= 0.00000000 COUPLED SET= 3 DIRECTION= VOLT TOTAL NODES= 139 MAXIMUM COUPLED SET NUMBER= 3 ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 32656 STEP 1 32656 NODES (OF 32656 DEFINED) SELECTED BY NSEL COMMAND. SELECT COMPONENT _CM132 *GET _NODNUM FROM NODE ITEM=NUM MIN VALUE= 812.000000 SPECIFIED NODAL LOAD AMPS FOR SELECTED NODES 812 TO 812 BY 1 REAL=_LOADVARI132 IMAG= 0.00000000 COUPLED SET= 4 DIRECTION= VOLT TOTAL NODES= 118 MAXIMUM COUPLED SET NUMBER= 4 ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 32656 STEP 1 32656 NODES (OF 32656 DEFINED) SELECTED BY NSEL COMMAND. SELECT COMPONENT _CM134 *GET _NODNUM FROM NODE ITEM=NUM MIN VALUE= 2462.00000 SPECIFIED NODAL LOAD AMPS FOR SELECTED NODES 2462 TO 2462 BY 1 REAL=_LOADVARI134 IMAG= 0.00000000 COUPLED SET= 5 DIRECTION= VOLT TOTAL NODES= 145 MAXIMUM COUPLED SET NUMBER= 5 ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 32656 STEP 1 32656 NODES (OF 32656 DEFINED) SELECTED BY NSEL COMMAND. SELECT COMPONENT _CM136 *GET _NODNUM FROM NODE ITEM=NUM MIN VALUE= 2804.00000 SPECIFIED NODAL LOAD AMPS FOR SELECTED NODES 2804 TO 2804 BY 1 REAL=_LOADVARI136 IMAG= 0.00000000 COUPLED SET= 6 DIRECTION= VOLT TOTAL NODES= 145 MAXIMUM COUPLED SET NUMBER= 6 ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 32656 STEP 1 32656 NODES (OF 32656 DEFINED) SELECTED BY NSEL COMMAND. SELECT COMPONENT _CM138 *GET _NODNUM FROM NODE ITEM=NUM MIN VALUE= 4193.00000 SPECIFIED NODAL LOAD AMPS FOR SELECTED NODES 4193 TO 4193 BY 1 REAL=_LOADVARI138 IMAG= 0.00000000 COUPLED SET= 7 DIRECTION= VOLT TOTAL NODES= 400 MAXIMUM COUPLED SET NUMBER= 7 ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 32656 STEP 1 32656 NODES (OF 32656 DEFINED) SELECTED BY NSEL COMMAND. SELECT COMPONENT _CM140 *GET _NODNUM FROM NODE ITEM=NUM MIN VALUE= 3224.00000 SPECIFIED NODAL LOAD AMPS FOR SELECTED NODES 3224 TO 3224 BY 1 REAL=_LOADVARI140 IMAG= 0.00000000 COUPLED SET= 8 DIRECTION= VOLT TOTAL NODES= 415 MAXIMUM COUPLED SET NUMBER= 8 ALL SELECT FOR ITEM=NODE COMPONENT= IN RANGE 1 TO 32656 STEP 1 32656 NODES (OF 32656 DEFINED) SELECTED BY NSEL COMMAND. PRINTOUT RESUMED BY /GOP SPECIFIED CONSTRAINT TEMP FOR PICKED NODES SET ACCORDING TO TABLE PARAMETER = _LOADVARI146 USE AUTOMATIC TIME STEPPING THIS LOAD STEP USE 1 SUBSTEPS INITIALLY THIS LOAD STEP FOR ALL DEGREES OF FREEDOM FOR AUTOMATIC TIME STEPPING: USE 10 SUBSTEPS AS A MAXIMUM USE 1 SUBSTEPS AS A MINIMUM TIME= 0.20000E-08 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 FFLU ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL FOR ALL APPLICABLE ENTITIES WRITE FGRA 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 CONVERGENCE ON HEAT BASED ON THE NORM OF THE N-R LOAD WITH A TOLERANCE OF 0.1000E-02 AND A MINIMUM REFERENCE VALUE OF 0.1000E-05 USING THE L2 NORM (CHECK THE SRSS VALUE) CONVERGENCE ON AMPS BASED ON THE NORM OF THE N-R LOAD WITH A TOLERANCE OF 0.1000E-02 AND A MINIMUM REFERENCE VALUE OF 0.1000E-05 USING THE L2 NORM (CHECK THE SRSS VALUE) USE A MAXIMUM OF 1000 EQUILIBRIUM ITERATIONS EACH SUBSTEP PERFORM A TRANSIENT ANALYSIS THIS WILL BE A NEW ANALYSIS *** NOTE *** CP = 1.342 TIME= 08:11:58 Some analysis options have been reset to their defaults. Please verify current settings or respecify as required. *GET ANSINTER_ FROM ACTI ITEM=INT VALUE= 0.00000000 *IF ANSINTER_ ( = 0.00000 ) NE 0 ( = 0.00000 ) THEN *ENDIF ***** ANSYS SOLVE COMMAND ***** *** WARNING *** CP = 1.373 TIME= 08:11:58 Element shape checking is currently inactive. Issue SHPP,ON or SHPP,WARN to reactivate, if desired. *** NOTE *** CP = 1.404 TIME= 08:11:58 The model data was checked and warning messages were found. Please review output or errors file ( C:\Work\Cuong\Ansys\Stromdichte vollständige Geometrie\_ProjectScratch\Scr7AF9\file.err ) for these warning messages. 1 ***** ANSYS - ENGINEERING ANALYSIS SYSTEM RELEASE 15.0 ***** ANSYS Academic Research 00274528 VERSION=WINDOWS x64 08:11:58 JUL 16, 2014 CP= 1.404 3--Thermisch-elektrisch-stationäre Analyse (A5) S O L U T I O N O P T I O N S PROBLEM DIMENSIONALITY. . . . . . . . . . . . .3-D DEGREES OF FREEDOM. . . . . . TEMP VOLT ANALYSIS TYPE . . . . . . . . . . . . . . . . .TRANSIENT SOLUTION METHOD. . . . . . . . . . . . . . .FULL OFFSET TEMPERATURE FROM ABSOLUTE ZERO . . . . . 273.15 NEWTON-RAPHSON OPTION . . . . . . . . . . . . .PROGRAM CHOSEN GLOBALLY ASSEMBLED MATRIX . . . . . . . . . . .SYMMETRIC *** NOTE *** CP = 1.498 TIME= 08:11:58 The Solution Control Option is only valid for a single field structural or thermal analysis. The SOLCONTROL,ON command (if present) has been de-activated. *** NOTE *** CP = 1.498 TIME= 08:11:58 This nonlinear analysis defaults to using the full Newton-Raphson solution procedure. This can be modified using the NROPT command. *** NOTE *** CP = 1.498 TIME= 08:11:58 The conditions for direct assembly have been met. No .emat or .erot files will be produced. 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. . . . . . . . . . 0.20000E-08 AUTOMATIC TIME STEPPING . . . . . . . . . . . . ON INITIAL NUMBER OF SUBSTEPS . . . . . . . . . 1 MAXIMUM NUMBER OF SUBSTEPS . . . . . . . . . 10 MINIMUM NUMBER OF SUBSTEPS . . . . . . . . . 1 MAXIMUM NUMBER OF EQUILIBRIUM ITERATIONS. . . . 1000 STEP CHANGE BOUNDARY CONDITIONS . . . . . . . . NO TRANSIENT (INERTIA) EFFECTS THERMAL DOFS . . . . . . . . . . . . . . . . ON ELECTRIC DOFS. . . . . . . . . . . . . . . . ON TRANSIENT INTEGRATION PARAMETERS THETA. . . . . . . . . . . . . . . . . . . . 0.50000 OSCILLATION LIMIT CRITERION. . . . . . . . . 0.50000 TOLERANCE. . . . . . . . . . . . . . . . . . 0.20000 TERMINATE ANALYSIS IF NOT CONVERGED . . . . . .YES (EXIT) CONVERGENCE CONTROLS LABEL REFERENCE TOLERANCE NORM MINREF HEAT 0.000 0.1000E-02 2 0.1000E-05 AMPS 0.000 0.1000E-02 2 0.1000E-05 PRINT OUTPUT CONTROLS . . . . . . . . . . . . .NO PRINTOUT DATABASE OUTPUT CONTROLS ITEM FREQUENCY COMPONENT ALL NONE NSOL ALL RSOL ALL FFLU ALL FGRA ALL MISC ALL _ELMISC *** NOTE *** CP = 2.714 TIME= 08:11:59 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 = 2.714 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 12 and contact element type 12 has been set up. The companion pair has real constant set ID 13. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.14373E-01 Average contact pair depth 0.48201E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.12050E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.714 TIME= 08:11:59 Max. Initial penetration 4.33680869E-19 was detected between contact element 8807 and target element 11720. **************************************** *** NOTE *** CP = 2.714 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 13 and contact element type 12 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.27402E-01 Average contact pair depth 0.82206E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.20552E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.714 TIME= 08:11:59 Max. Initial penetration 4.33680869E-19 was detected between contact element 10163 and target element 7224. **************************************** *** NOTE *** CP = 2.714 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 14 and contact element type 14 has been set up. The companion pair has real constant set ID 15. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.14563E-01 Average contact pair depth 0.48705E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.12176E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.714 TIME= 08:11:59 Min. Initial gap 2.E-03 was detected between contact element 13966 and target element 16558. The gap is closed due to initial settings. *** WARNING *** CP = 2.714 TIME= 08:11:59 The detected gap is larger than the pair based pinball. Please verify the pinball radius carefully. *** WARNING *** CP = 2.714 TIME= 08:11:59 The geometric gap/penetration may be too large. Increase pinball radius if it is a true geometric gap/penetration. Decrease pinball if it is a false one. *** WARNING *** CP = 2.714 TIME= 08:11:59 The initial penetration/gap is relatively large. Bonded/no separation option may cause an accuracy issue. Switch to MPC algorithm or you may use the CNCHECK,ADJUST command to move the contact nodes towards the target surface. **************************************** *** NOTE *** CP = 2.714 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 15 and contact element type 14 has been set up. The companion pair has real constant set ID 14. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.22283E-01 Average contact pair depth 0.70259E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.17565E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.714 TIME= 08:11:59 Min. Initial gap 2.E-03 was detected between contact element 15723 and target element 12628. The gap is closed due to initial settings. *** WARNING *** CP = 2.714 TIME= 08:11:59 The detected gap is larger than the pair based pinball. Please verify the pinball radius carefully. *** WARNING *** CP = 2.714 TIME= 08:11:59 The geometric gap/penetration may be too large. Increase pinball radius if it is a true geometric gap/penetration. Decrease pinball if it is a false one. *** WARNING *** CP = 2.714 TIME= 08:11:59 The initial penetration/gap is relatively large. Bonded/no separation option may cause an accuracy issue. Switch to MPC algorithm or you may use the CNCHECK,ADJUST command to move the contact nodes towards the target surface. **************************************** *** NOTE *** CP = 2.714 TIME= 08:11:59 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.92650E-02 Average contact pair depth 0.37978E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.94945E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.714 TIME= 08:11:59 Max. Initial penetration 4.33680869E-19 was detected between contact element 16738 and target element 16841. **************************************** *** NOTE *** CP = 2.714 TIME= 08:11:59 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.28743E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.714 TIME= 08:11:59 Max. Initial penetration 8.67361738E-19 was detected between contact element 16775 and target element 16733. **************************************** *** NOTE *** CP = 2.714 TIME= 08:11:59 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.92720E-02 Average contact pair depth 0.37540E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.93850E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.714 TIME= 08:11:59 Max. Initial penetration 0 was detected between contact element 16889 and target element 16969. **************************************** *** NOTE *** CP = 2.714 TIME= 08:11:59 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.28743E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.714 TIME= 08:11:59 Max. Initial penetration 8.67361738E-19 was detected between contact element 16943 and target element 16881. **************************************** *** NOTE *** CP = 2.714 TIME= 08:11:59 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. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.13515E-01 Average contact pair depth 0.42793E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.10698E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.714 TIME= 08:11:59 Max. Initial penetration 4.33680869E-19 was detected between contact element 17058 and target element 17306. **************************************** *** NOTE *** CP = 2.714 TIME= 08:11:59 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.48405E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.714 TIME= 08:11:59 Max. Initial penetration 8.67361738E-19 was detected between contact element 17114 and target element 17050. **************************************** *** NOTE *** CP = 2.714 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 22 and contact element type 22 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.20511E-01 Average contact pair depth 0.62290E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.15572E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.714 TIME= 08:11:59 Max. Initial penetration 4.33680869E-19 was detected between contact element 17416 and target element 17665. **************************************** *** NOTE *** CP = 2.714 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 23 and contact element type 22 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.50330E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Max. Initial penetration 8.67361738E-19 was detected between contact element 17441 and target element 17388. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 24 and contact element type 24 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.26731E-01 Average contact pair depth 0.80201E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.20050E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Max. Initial penetration 1.734723476E-18 was detected between contact element 18912 and target element 20953. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 25 and contact element type 24 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.21064E-01 Average contact pair depth 0.67286E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.16821E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Max. Initial penetration 8.67361738E-19 was detected between contact element 20083 and target element 18316. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 26 and contact element type 26 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.19739E-01 Average contact pair depth 0.59218E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.14804E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** WARNING *** CP = 2.730 TIME= 08:11:59 No contact was detected for this contact pair (ID= 26). **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 27 and contact element type 26 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.45689E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** WARNING *** CP = 2.730 TIME= 08:11:59 No contact was detected for this contact pair (ID= 27). **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 28 and contact element type 28 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.19766E-01 Average contact pair depth 0.59299E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.14825E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** WARNING *** CP = 2.730 TIME= 08:11:59 No contact was detected for this contact pair (ID= 28). **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 29 and contact element type 28 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.54952E-02 Average contact pair depth 0.20157E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50392E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** WARNING *** CP = 2.730 TIME= 08:11:59 No contact was detected for this contact pair (ID= 29). **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 30 and contact element type 30 has been set up. The companion pair has real constant set ID 31. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.16765E-01 Average contact pair depth 0.50296E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.12574E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** WARNING *** CP = 2.730 TIME= 08:11:59 No contact was detected for this contact pair (ID= 30). **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 31 and contact element type 30 has been set up. The companion pair has real constant set ID 30. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.28743E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** WARNING *** CP = 2.730 TIME= 08:11:59 No contact was detected for this contact pair (ID= 31). **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 32 and contact element type 32 has been set up. The companion pair has real constant set ID 33. Both pairs should have the same behavior. ANSYS will deactivate the current pair and keep its companion pair, resulting in asymmetric contact. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.18466E-01 Average contact pair depth 0.55399E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.13850E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** WARNING *** CP = 2.730 TIME= 08:11:59 No contact was detected for this contact pair (ID= 32). **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 33 and contact element type 32 has been set up. The companion pair has real constant set ID 32. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.28743E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** WARNING *** CP = 2.730 TIME= 08:11:59 No contact was detected for this contact pair (ID= 33). **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 34 and contact element type 34 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.33531E-01 Average contact pair depth 0.10059E-01 Default pinball region factor PINB 0.25000 The resulting pinball region 0.25148E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Min. Initial gap 3.E-03 was detected between contact element 22534 and target element 22772. The gap is closed due to initial settings. *** WARNING *** CP = 2.730 TIME= 08:11:59 The detected gap is larger than the pair based pinball. Please verify the pinball radius carefully. *** WARNING *** CP = 2.730 TIME= 08:11:59 The geometric gap/penetration may be too large. Increase pinball radius if it is a true geometric gap/penetration. Decrease pinball if it is a false one. *** WARNING *** CP = 2.730 TIME= 08:11:59 The initial penetration/gap is relatively large. Bonded/no separation option may cause an accuracy issue. Switch to MPC algorithm or you may use the CNCHECK,ADJUST command to move the contact nodes towards the target surface. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 35 and contact element type 34 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.48348E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** WARNING *** CP = 2.730 TIME= 08:11:59 No contact was detected for this contact pair (ID= 35). **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 36 and contact element type 36 has been set up. The companion pair has real constant set ID 37. Both pairs should have the same behavior. ANSYS will keep the current pair and deactivate its companion pair, resulting in asymmetric contact. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.34848E-01 Average contact pair depth 0.10454E-01 Default pinball region factor PINB 0.25000 The resulting pinball region 0.26136E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Min. Initial gap 3.E-03 was detected between contact element 22842 and target element 23082. The gap is closed due to initial settings. *** WARNING *** CP = 2.730 TIME= 08:11:59 The detected gap is larger than the pair based pinball. Please verify the pinball radius carefully. *** WARNING *** CP = 2.730 TIME= 08:11:59 The geometric gap/penetration may be too large. Increase pinball radius if it is a true geometric gap/penetration. Decrease pinball if it is a false one. *** WARNING *** CP = 2.730 TIME= 08:11:59 The initial penetration/gap is relatively large. Bonded/no separation option may cause an accuracy issue. Switch to MPC algorithm or you may use the CNCHECK,ADJUST command to move the contact nodes towards the target surface. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 37 and contact element type 36 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.50212E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** WARNING *** CP = 2.730 TIME= 08:11:59 No contact was detected for this contact pair (ID= 37). **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 38 and contact element type 38 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.28900E-01 Average contact pair depth 0.86699E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.21675E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Max. Initial penetration 2.602085214E-18 was detected between contact element 23107 and target element 23307. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 39 and contact element type 38 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.45689E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Max. Initial penetration 1.734723476E-18 was detected between contact element 23150 and target element 23091. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 40 and contact element type 40 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.21250E-01 Average contact pair depth 0.64644E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.16161E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Max. Initial penetration 1.734723476E-18 was detected between contact element 23437 and target element 23632. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 41 and contact element type 40 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.54952E-02 Average contact pair depth 0.20157E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50392E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Max. Initial penetration 1.734723476E-18 was detected between contact element 23459 and target element 23419. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 42 and contact element type 42 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.11014E-01 Average contact pair depth 0.41956E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.10489E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Max. Initial penetration 1.734723476E-18 was detected between contact element 23694 and target element 23759. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 43 and contact element type 42 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.30890E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Max. Initial penetration 1.734723476E-18 was detected between contact element 23734 and target element 23667. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 44 and contact element type 44 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.13256E-01 Average contact pair depth 0.48685E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.12171E-02 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Max. Initial penetration 1.734723476E-18 was detected between contact element 23826 and target element 23920. **************************************** *** NOTE *** CP = 2.730 TIME= 08:11:59 Symmetric Deformable- deformable contact pair identified by real constant set 45 and contact element type 44 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. Thermal-electrical coupling contact is activated. The emissivity is defined through the material property. Thermal convection coefficient, environment temperature, and heat flux are defined using the SFE command. Target temperature is used for convection/radiation calculation for near field contact. Contact detection at: Gauss integration point Average contact surface length 0.29310E-02 Average contact pair depth 0.20000E-02 Default pinball region factor PINB 0.25000 The resulting pinball region 0.50000E-03 Initial penetration/gap is excluded. Bonded contact (always) is defined. Thermal contact conductance coef. TCC 0.20791E+07 Heat radiation is excluded. Electric contact conductance coef. ECC 0.33494E+12 Default fraction of electrical energy FHEG 1.0000 Default weight of dissip. to contact FWGT 0.50000 *** NOTE *** CP = 2.730 TIME= 08:11:59 Max. Initial penetration 1.734723476E-18 was detected between contact element 23860 and target element 23816. **************************************** ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 12 Max. Penetration of 0 has been detected between contact element 8512 and target element 11974. Max. Geometrical gap of 6.505213035E-19 has been detected between contact element 9115 and target element 11697. Max. Geometrical penetration of -4.33680869E-19 has been detected between contact element 9115 and target element 11697. Contacting area 0.377870974. Max. Pinball distance 1.20502364E-03. One of the contact searching regions contains at least 49 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 13 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 14 *** NOTE *** CP = 4.274 TIME= 08:12:00 No contact was detected. Max. Pinball distance 1.217617806E-03. One of the contact searching regions contains at least 27 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 15 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 16 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 17 Max. Penetration of 0 has been detected between contact element 16771 and target element 16731. Max. Geometrical gap of 4.33680869E-19 has been detected between contact element 16775 and target element 16733. Max. Geometrical penetration of -8.67361738E-19 has been detected between contact element 16775 and target element 16733. Contacting area 2.217574628E-04. Max. Pinball distance 5.E-04. One of the contact searching regions contains at least 11 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 18 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 19 Max. Penetration of 0 has been detected between contact element 16923 and target element 16885. Max. Geometrical gap of 4.33680869E-19 has been detected between contact element 16943 and target element 16881. Max. Geometrical penetration of -8.67361738E-19 has been detected between contact element 16943 and target element 16881. Contacting area 2.217574629E-04. Max. Pinball distance 5.E-04. One of the contact searching regions contains at least 9 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 20 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 21 Max. Penetration of 0 has been detected between contact element 17107 and target element 17049. Max. Geometrical gap of 4.33680869E-19 has been detected between contact element 17114 and target element 17050. Max. Geometrical penetration of -8.67361738E-19 has been detected between contact element 17114 and target element 17050. Contacting area 2.164226194E-03. Max. Pinball distance 5.E-04. One of the contact searching regions contains at least 9 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 22 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 23 Max. Penetration of 0 has been detected between contact element 17429 and target element 17388. Max. Geometrical gap of 4.33680869E-19 has been detected between contact element 17441 and target element 17388. Max. Geometrical penetration of -8.67361738E-19 has been detected between contact element 17441 and target element 17388. Contacting area 2.178175082E-03. Max. Pinball distance 5.E-04. One of the contact searching regions contains at least 9 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 24 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. *** NOTE *** CP = 4.274 TIME= 08:12:00 One of the contact searching regions contains at least 55 target elements. You may reduce the pinball radius (current value 1.682144853E-03) for contact pair identified by real constant set 25 to speed up contact searching. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 26 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 27 *** NOTE *** CP = 4.274 TIME= 08:12:00 No contact was detected. Max. Pinball distance 5.E-04. One of the contact searching regions contains at least 11 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 28 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 29 *** NOTE *** CP = 4.274 TIME= 08:12:00 No contact was detected. Max. Pinball distance 5.039156469E-04. One of the contact searching regions contains at least 12 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 30 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 31 *** NOTE *** CP = 4.274 TIME= 08:12:00 No contact was detected. Max. Pinball distance 5.E-04. One of the contact searching regions contains at least 9 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 32 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 33 *** NOTE *** CP = 4.274 TIME= 08:12:00 No contact was detected. Max. Pinball distance 5.E-04. One of the contact searching regions contains at least 8 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 34 *** NOTE *** CP = 4.274 TIME= 08:12:00 No contact was detected. Max. Pinball distance 2.514800326E-03. One of the contact searching regions contains at least 21 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 35 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 36 *** NOTE *** CP = 4.274 TIME= 08:12:00 No contact was detected. Max. Pinball distance 2.613570469E-03. One of the contact searching regions contains at least 21 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 37 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 38 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 39 Max. Penetration of 0 has been detected between contact element 23131 and target element 23102. Max. Geometrical gap of 1.734723476E-18 has been detected between contact element 23131 and target element 23102. Max. Geometrical penetration of -1.734723476E-18 has been detected between contact element 23131 and target element 23102. Contacting area 2.586644044E-03. Max. Pinball distance 5.E-04. One of the contact searching regions contains at least 7 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 40 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 41 Max. Penetration of 0 has been detected between contact element 23455 and target element 23418. Max. Geometrical gap of 1.734723476E-18 has been detected between contact element 23461 and target element 23416. Max. Geometrical penetration of -1.734723476E-18 has been detected between contact element 23461 and target element 23416. Contacting area 2.572182227E-03. Max. Pinball distance 5.039156469E-04. One of the contact searching regions contains at least 8 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 42 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 43 Max. Penetration of 0 has been detected between contact element 23725 and target element 23686. Max. Geometrical gap of 1.734723476E-18 has been detected between contact element 23734 and target element 23667. Max. Geometrical penetration of -1.734723476E-18 has been detected between contact element 23734 and target element 23667. Contacting area 2.167747599E-04. Max. Pinball distance 5.E-04. One of the contact searching regions contains at least 8 target elements. ************************************************* ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 44 *** NOTE *** CP = 4.274 TIME= 08:12:00 Contact pair is inactive. ************************************************* SUMMARY FOR CONTACT PAIR IDENTIFIED BY REAL CONSTANT SET 45 Max. Penetration of 0 has been detected between contact element 23859 and target element 23817. Max. Geometrical gap of 1.734723476E-18 has been detected between contact element 23889 and target element 23818. Max. Geometrical penetration of -1.734723476E-18 has been detected between contact element 23889 and target element 23818. Contacting area 2.17881943E-04. Max. Pinball distance 5.E-04. One of the contact searching regions contains at least 12 target elements. ************************************************* **** CENTER OF MASS, MASS, AND MASS MOMENTS OF INERTIA **** CALCULATIONS ASSUME ELEMENT MASS AT ELEMENT CENTROID TOTAL MASS = 20.271 MOM. OF INERTIA MOM. OF INERTIA CENTER OF MASS ABOUT ORIGIN ABOUT CENTER OF MASS XC = -0.32360E-02 IXX = 0.2107 IXX = 0.2106 YC = 0.10581E-02 IYY = 3.170 IYY = 3.169 ZC = 0.19659E-02 IZZ = 3.380 IZZ = 3.380 IXY = 0.6687E-03 IXY = 0.5993E-03 IYZ = 0.2417E-03 IYZ = 0.2838E-03 IZX = 0.9622E-04 IZX = -0.3274E-04 *** MASS SUMMARY BY ELEMENT TYPE *** TYPE MASS 1 9.72746 2 0.883680 3 9.45113 4 0.469352E-01 5 0.469352E-01 6 0.521488E-02 7 0.521488E-02 8 0.521488E-02 9 0.521488E-02 10 0.469352E-01 11 0.469352E-01 Range of element maximum matrix coefficients in global coordinates Maximum = 386673613 at element 8698. Minimum = 1.404839253E-05 at element 23956. *** WARNING *** CP = 4.290 TIME= 08:12:00 Coefficient ratio exceeds 1.0e8 - Check results. *** ELEMENT MATRIX FORMULATION TIMES TYPE NUMBER ENAME TOTAL CP AVE CP 1 1670 SOLID226 0.218 0.000131 2 3799 SOLID227 0.312 0.000082 3 806 SOLID226 0.062 0.000077 4 133 SOLID226 0.062 0.000469 5 104 SOLID226 0.000 0.000000 6 33 SOLID226 0.000 0.000000 7 40 SOLID226 0.000 0.000000 8 42 SOLID226 0.031 0.000743 9 42 SOLID226 0.000 0.000000 10 128 SOLID226 0.031 0.000244 11 123 SOLID226 0.062 0.000507 12 2752 CONTA174 0.468 0.000170 13 2752 TARGE170 0.062 0.000023 14 2140 CONTA174 0.218 0.000102 15 2140 TARGE170 0.062 0.000029 16 75 CONTA174 0.062 0.000832 17 75 TARGE170 0.000 0.000000 18 76 CONTA174 0.000 0.000000 19 76 TARGE170 0.000 0.000000 20 178 CONTA174 0.031 0.000175 21 178 TARGE170 0.000 0.000000 22 156 CONTA174 0.062 0.000400 23 156 TARGE170 0.000 0.000000 24 1907 CONTA174 0.156 0.000082 25 1907 TARGE170 0.031 0.000016 26 187 CONTA174 0.062 0.000334 27 187 TARGE170 0.000 0.000000 28 163 CONTA174 0.000 0.000000 29 163 TARGE170 0.000 0.000000 30 72 CONTA174 0.000 0.000000 31 72 TARGE170 0.000 0.000000 32 83 CONTA174 0.000 0.000000 33 83 TARGE170 0.000 0.000000 34 146 CONTA174 0.000 0.000000 35 146 TARGE170 0.031 0.000214 36 146 CONTA174 0.000 0.000000 37 146 TARGE170 0.000 0.000000 38 157 CONTA174 0.031 0.000199 39 157 TARGE170 0.000 0.000000 40 133 CONTA174 0.000 0.000000 41 133 TARGE170 0.000 0.000000 42 63 CONTA174 0.000 0.000000 43 63 TARGE170 0.000 0.000000 44 75 CONTA174 0.000 0.000000 45 75 TARGE170 0.000 0.000000 46 1670 SURF152 0.062 0.000037 Time at end of element matrix formulation CP = 4.29002762. ALL CURRENT ANSYS DATA WRITTEN TO FILE NAME= file.rdb FOR POSSIBLE RESUME FROM THIS POINT HT FLOW CONVERGENCE VALUE= 0.1025E-06 CRITERION= 0.1000E-08 CURRENT CONVERGENCE VALUE= 0.000 CRITERION= 0.1000E-08 SPARSE MATRIX DIRECT SOLVER. Number of equations = 63181, Maximum wavefront = 606 *** NOTE *** CP = 4.696 TIME= 08:12:00 The initial memory allocation (-m) has been exceeded. Supplemental memory allocations are being used. Memory allocated for solver = 807.822 MB Memory required for in-core = 249.097 MB Optimal memory required for out-of-core = 48.211 MB Minimum memory required for out-of-core = 31.762 MB *** NOTE *** CP = 5.725 TIME= 08:12:01 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. Sparse solver maximum pivot= 3.100640389E+09 at node 18943 TEMP. Sparse solver minimum pivot= -11620487 at node 7851 VOLT. Sparse solver minimum pivot in absolute value= 0 at node 27029 VOLT. *** ERROR *** CP = 7.519 TIME= 08:12:02 There are 18 small equation solver pivot terms (e.g., at the VOLT degree of freedom of node 27029). Please check for an insufficiently constrained model. NUMBER OF WARNING MESSAGES ENCOUNTERED= 24 NUMBER OF ERROR MESSAGES ENCOUNTERED= 1 ***** 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: 15.0 Build: UP20131014 Platform: WINDOWS x64 Date Run: 07/16/2014 Time: 08:12 Windows Process ID: 8084 Processor Model: Intel(R) Core(TM) i5-3570K CPU @ 3.40GHz Compiler: Intel(R) FORTRAN Compiler Version 12.1.0 (Build: 20120928) Microsoft(R) Visual C/C++ Compiler Version 16.0 (Build: 40219) Intel(R) Math Kernel Library Version 11.0.5 Product Build 20130612 Total number of cores available : 4 Number of physical cores available : 4 Number of cores requested : 2 (Shared Memory Parallel) GPU Acceleration: Not Requested Job Name: file Working Directory: C:\Work\Cuong\Ansys\Stromdichte vollständige Geometrie\_ProjectScratch\Scr7AF9 Total CPU time for main thread : 4.9 seconds Total CPU time summed for all threads : 7.7 seconds Elapsed time spent pre-processing model (/PREP7) : 0.3 seconds Elapsed time spent solution - preprocessing : 0.2 seconds Elapsed time spent computing solution : 3.7 seconds Elapsed time spent solution - postprocessing : 0.0 seconds Elapsed time spent post-processing model (/POST1) : 0.0 seconds Equation solver computational rate : 13421.3 Mflops Equation solver effective I/O rate : 6075.9 MB/sec Maximum total memory used : 885.0 MB Maximum total memory allocated : 1895.0 MB Maximum total memory available : 8 GB +------------------ E N D A N S Y S S T A T I S T I C S -------------------+ *---------------------------------------------------------------------------* | | | ANSYS RUN COMPLETED | | | |---------------------------------------------------------------------------| | | | Release 15.0 UP20131014 WINDOWS x64 | | | |---------------------------------------------------------------------------| | | | Database Requested(-db) 512 MB Scratch Memory Requested 512 MB | | Maximum Database Used 35 MB Maximum Scratch Memory Used 850 MB | | | |---------------------------------------------------------------------------| | | | CP Time (sec) = 7.675 Time = 08:12:02 | | Elapsed Time (sec) = 46.000 Date = 07/16/2014 | | | *---------------------------------------------------------------------------*