{"id":381644,"date":"2024-09-05T13:40:30","date_gmt":"2024-09-05T13:40:30","guid":{"rendered":"https:\/\/innovationspace.ansys.com\/forum\/forums\/topic\/non-linear-convergence-issue\/"},"modified":"2024-09-05T13:40:30","modified_gmt":"2024-09-05T13:40:30","slug":"non-linear-convergence-issue","status":"publish","type":"topic","link":"https:\/\/innovationspace.ansys.com\/forum\/forums\/topic\/non-linear-convergence-issue\/","title":{"rendered":"Non-linear convergence issue"},"content":{"rendered":"

<p>Hello,<\/p><p> <\/p><p>I am attempting to model a soft poroelastic solid elements (CPT216) which is reinforced by stiff orthotropic linear elastic shell elements. The shell elements themselves have reinforcement fibres running parallel to the wall length, these are what provide the stiffness. Unfortunately, I am unable to get a non-linear solution to converges – the fluid flow will not converge. Is there any way I can upload my project file onto here, so someone can check the model? <\/p><p> <\/p><p><\/p><p>Here is the solution information:<\/p><p> <\/p><div class=”gradient”><h1 id=”pageName”>Solver Output<\/h1><\/div><p> <\/p><div id=”paraDiv”><p id=”paragraphData” class=”paragraphText” style=”font-size: 12px; display: inline;”><br> Ansys Mechanical Enterprise Academic Research     <br><br><br> *——————————————————————*<br> |                                                                  |<br> |   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     |<br> |                                                                  |<br> *——————————————————————*<br><br><br><br><br> ***************************************************************<br> *            ANSYS 2022 R1          LEGAL NOTICES             *<br> ***************************************************************<br> *                                                             *<br> * Copyright 1971-2022 ANSYS, Inc.  All rights reserved.       *<br> * Unauthorized use, distribution or duplication is            *<br> * prohibited.                                                 *<br> *                                                             *<br> * Ansys is a registered trademark of ANSYS, Inc. or its       *<br> * subsidiaries in the United States or other countries.       *<br> * See the ANSYS, Inc. online documentation or the ANSYS, Inc. *<br> * documentation CD or online help for the complete Legal      *<br> * Notice.                                                     *<br> *                                                             *<br> ***************************************************************<br> *                                                             *<br> * THIS ANSYS SOFTWARE PRODUCT AND PROGRAM DOCUMENTATION       *<br> * INCLUDE TRADE SECRETS AND CONFIDENTIAL AND PROPRIETARY      *<br> * PRODUCTS OF ANSYS, INC., ITS SUBSIDIARIES, OR LICENSORS.    *<br> * The software products and documentation are furnished by    *<br> * ANSYS, Inc. or its subsidiaries under a software license    *<br> * agreement that contains provisions concerning               *<br> * non-disclosure, copying, length and nature of use,          *<br> * compliance with exporting laws, warranties, disclaimers,    *<br> * limitations of liability, and remedies, and other           *<br> * provisions.  The software products and documentation may be *<br> * used, disclosed, transferred, or copied only in accordance  *<br> * with the terms and conditions of that software license      *<br> * agreement.                                                  *<br> *                                                             *<br> * ANSYS, Inc. is a UL registered                              *<br> * ISO 9001:2015 company.                                      *<br> *                                                             *<br> ***************************************************************<br> *                                                             *<br> * This product is subject to U.S. laws governing export and   *<br> * re-export.                                                  *<br> *                                                             *<br> * For U.S. Government users, except as specifically granted   *<br> * by the ANSYS, Inc. software license agreement, the use,     *<br> * duplication, or disclosure by the United States Government  *<br> * is subject to restrictions stated in the ANSYS, Inc.        *<br> * software license agreement and FAR 12.212 (for non-DOD      *<br> * licenses).                                                  *<br> *                                                             *<br> ***************************************************************<br><br> 2022 R1 <br>     <br> Point Releases and Patches installed:   <br>     <br> ANSYS, Inc. 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Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7\\dummy.dat<br>  OUTPUT FILE NAME             = C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7\\solve.out<br>  START-UP FILE MODE           = NOREAD<br>  STOP FILE MODE               = NOREAD<br><br> RELEASE= 2022 R1              BUILD= 22.1      UP20211129   VERSION=WINDOWS x64 <br> CURRENT JOBNAME=file0  14:08:47  SEP 05, 2024 CP=      0.047<br><br><br> PARAMETER _DS_PROGRESS =     999.0000000    <br><br> \/INPUT FILE= ds.dat  LINE=       0<br><br><br><br> *** NOTE ***                            CP =       0.203   TIME= 14:08:48<br> The \/CONFIG,NOELDB command is not valid in a Distributed ANSYS          <br> solution.  Command is ignored.                                          <br><br> *GET  _WALLSTRT  FROM  ACTI  ITEM=TIME WALL  VALUE=  14.1466667    <br><br> TITLE= <br> 800um_simplified_TEST–Static Structural (A5)                                 <br><br>  ACT Extensions:<br>      LSDYNA, 2021.1<br>      5f463412-bd3e-484b-87e7-cbc0a665e474, wbex<br>  <br><br> SET PARAMETER DIMENSIONS ON  _WB_PROJECTSCRATCH_DIR<br>  TYPE=STRI  DIMENSIONS=      248        1        1<br><br> PARAMETER _WB_PROJECTSCRATCH_DIR(1) = C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7\\<br><br> SET PARAMETER DIMENSIONS ON  _WB_SOLVERFILES_DIR<br>  TYPE=STRI  DIMENSIONS=      248        1        1<br><br> PARAMETER _WB_SOLVERFILES_DIR(1) = C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\800um_simplified_TEST_files\\dp0\\SYS\\MECH\\<br><br> SET PARAMETER DIMENSIONS ON  _WB_USERFILES_DIR<br>  TYPE=STRI  DIMENSIONS=      248        1        1<br><br> PARAMETER _WB_USERFILES_DIR(1) = C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\800um_simplified_TEST_files\\user_files\\<br> — Data in consistent uMKS units. See Solving Units in the help system for mor<br><br> uMKS UNITS SPECIFIED FOR INTERNAL    <br>  LENGTH      = MICROMETERS (um)<br>  MASS        = KILOGRAM (kg)<br>  TIME        = SECONDS (sec)<br>  TEMPERATURE = CELSIUS (C)<br>  TOFFSET     = 273.0<br>  FORCE       = MICRONEWTON (uN)<br>  HEAT        = PICOJOULES (pJ)<br><br> INPUT  UNITS ARE ALSO SET TO UMKS<br><br> *** ANSYS – ENGINEERING ANALYSIS SYSTEM  RELEASE 2022 R1          22.1     ***<br> DISTRIBUTED Ansys Mechanical Enterprise Academic Research     <br><br> 00000000  VERSION=WINDOWS x64   14:08:48  SEP 05, 2024 CP=      0.203<br><br> 800um_simplified_TEST–Static Structural (A5)                                 <br><br><br><br>          ***** ANSYS ANALYSIS DEFINITION (PREP7) *****<br> *********** Nodes for the whole assembly ***********<br> *********** Elements for Body 1 “Solid111” ***********<br> *********** Elements for Body 2 “Solid111” ***********<br> *********** Elements for Body 3 “Solid111” ***********<br> *********** Elements for Body 4 “Solid1111” ***********<br> *********** Elements for Body 5 “Solid1111” ***********<br> *********** Elements for Body 6 “Solid1111” ***********<br> *********** Elements for Body 7 “Solid11111” ***********<br> *********** Elements for Body 8 “Solid1111” ***********<br> *********** Elements for Body 9 “Solid11111” ***********<br> *********** Elements for Body 10 “Solid111111” ***********<br> *********** Elements for Body 11 “Solid11111” ***********<br> *********** Elements for Body 12 “Solid1111” ***********<br> *********** Elements for Body 13 “Solid111111” ***********<br> *********** Elements for Body 14 “Solid1111111” ***********<br> *********** Elements for Body 15 “Surface” ***********<br> *********** Elements for Body 16 “Surface” ***********<br> *********** Elements for Body 17 “Surface” ***********<br> *********** Elements for Body 18 “Surface” ***********<br> *********** Elements for Body 19 “Surface” ***********<br> *********** Elements for Body 20 “Surface” ***********<br> *********** Elements for Body 21 “Surface1” ***********<br> *********** Elements for Body 22 “Surface1” ***********<br> *********** Elements for Body 23 “Surface1” ***********<br> *********** Elements for Body 24 “Surface1” ***********<br> *********** Elements for Body 25 “Surface1” ***********<br> *********** Elements for Body 26 “Surface11” ***********<br> *********** Elements for Body 27 “Surface1” ***********<br> *********** Elements for Body 28 “Surface1” ***********<br> *********** Elements for Body 29 “Surface1” ***********<br> *********** Elements for Body 30 “Surface1” ***********<br> *********** Elements for Body 31 “Surface1” ***********<br> *********** Elements for Body 32 “Surface1” ***********<br> *********** Elements for Body 33 “Surface1” ***********<br> *********** Elements for Body 34 “Surface11” ***********<br> *********** Elements for Body 35 “Surface11” ***********<br> *********** Elements for Body 36 “Surface11” ***********<br> *********** Elements for Body 37 “Surface1” ***********<br> *********** Elements for Body 38 “Surface1” ***********<br> *********** Elements for Body 39 “Surface11” ***********<br> *********** Elements for Body 40 “Surface11” ***********<br> *********** Send User Defined Coordinate System(s) ***********<br> *********** Send Element Orientation **********<br>  Sending Element Orientation Object: “Element Orientation”<br>  Sending Element Orientation Object: “Element Orientation 2″<br> *********** Set Reference Temperature ***********<br> *********** Send Materials ***********<br> *********** Send Sheet Properties ***********<br> *********** Send Named Selection as Element Component ***********<br> *********** Send Named Selection as Element Component ***********<br> ********* Frictionless Supports X *********<br> ********* Frictionless Supports Z *********<br> ******* Constant Zero Displacement Y *******<br> *********** Create Displacement Tables and Functions ******<br><br> LIST DATA TABLE  PLAS  FOR MATERIAL     14<br><br> *** ANSYS – ENGINEERING ANALYSIS SYSTEM  RELEASE 2022 R1          22.1     ***<br> DISTRIBUTED Ansys Mechanical Enterprise Academic Research     <br><br> 00000000  VERSION=WINDOWS x64   14:08:48  SEP 05, 2024 CP=      0.672<br><br> 800um_simplified_TEST–Static Structural (A5)                                 <br><br><br><br>               PLASTIC  (PLAS) Table For Material    14<br>               ISOTROPIC HARDENING PLASTICITY                                                  <br><br>                     1 <br> Temps     2.3000000e+01 <br>      PlStrain       Stress  <br> 0.0000000e+00 5.9620000e+00 <br> 2.9670000e-03 1.1480000e+01 <br> 8.3930000e-03 1.5190000e+01 <br> 1.5420000e-02 1.7980000e+01 <br> 2.3740000e-02 2.0030000e+01 <br> 3.3180000e-02 2.1570000e+01 <br> 4.3610000e-02 2.2760000e+01 <br> 5.4960000e-02 2.3600000e+01 <br> 6.7140000e-02 2.4230000e+01 <br> 8.0120000e-02 2.4640000e+01 <br><br><br><br> ***** ROUTINE COMPLETED *****  CP =         0.672<br><br><br> — Number of total nodes = 10043<br> — Number of contact elements = 0<br> — Number of spring elements = 0<br> — Number of bearing elements = 0<br> — Number of solid elements = 10310<br> — Number of condensed parts = 0<br> — Number of total elements = 10310<br><br> *GET  _WALLBSOL  FROM  ACTI  ITEM=TIME WALL  VALUE=  14.1466667    <br> ****************************************************************************<br> *************************    SOLUTION       ********************************<br> ****************************************************************************<br><br> *****  ANSYS SOLUTION ROUTINE  *****<br><br><br> PERFORM A STATIC ANALYSIS<br>  THIS WILL BE A NEW ANALYSIS<br><br> LARGE DEFORMATION ANALYSIS<br><br> PARAMETER _THICKRATIO =     0.000000000    <br><br> USE SPARSE MATRIX DIRECT SOLVER<br><br> CONTACT INFORMATION PRINTOUT LEVEL       1<br><br> DO NOT COMBINE ELEMENT MATRIX FILES (.emat) AFTER DISTRIBUTED PARALLEL SOLUTION<br><br> DO NOT COMBINE ELEMENT SAVE DATA FILES (.esav) AFTER DISTRIBUTED PARALLEL SOLUTION<br><br> NLDIAG: Nonlinear diagnostics CONT option is set to ON. <br>         Writing frequency : each ITERATION.<br><br> DEFINE RESTART CONTROL FOR LOADSTEP LAST<br> AT FREQUENCY OF LAST AND NUMBER FOR OVERWRITE IS   -1<br><br> DELETE RESTART FILES OF ENDSTEP<br> ****************************************************<br> ******************* SOLVE FOR LS 1 OF 3 ****************<br> *** Set Displacements ***<br> CMBLOCK read of NODE component _CM1384UY_YP  completed<br><br> SELECT      COMPONENT _CM1384UY_YP                    <br><br> SPECIFIED CONSTRAINT UY   FOR SELECTED NODES            1 TO       10043 BY           1<br> SET ACCORDING TO TABLE PARAMETER = _LOADVARI1384YP<br><br> ALL SELECT   FOR ITEM=NODE COMPONENT=    <br>  IN RANGE         1 TO      10043 STEP          1<br><br>      10043  NODES (OF      10043  DEFINED) SELECTED BY NSEL  COMMAND.<br> *** Component For All Non-Zero UY Displacements ***<br><br> SELECT      COMPONENT _CM1384UY_YP                    <br><br> DEFINITION OF COMPONENT = _DISPNONZEROUY  ENTITY=NODE<br><br> ALL SELECT   FOR ITEM=NODE COMPONENT=    <br>  IN RANGE         1 TO      10043 STEP          1<br><br>      10043  NODES (OF      10043  DEFINED) SELECTED BY NSEL  COMMAND.<br><br> PRINTOUT RESUMED BY \/GOP<br><br> USE AUTOMATIC TIME STEPPING THIS LOAD STEP<br><br> USE       5 SUBSTEPS INITIALLY THIS LOAD STEP FOR ALL  DEGREES OF FREEDOM<br> FOR AUTOMATIC TIME STEPPING:<br>   USE   1000 SUBSTEPS AS A MAXIMUM<br>   USE      1 SUBSTEPS AS A MINIMUM<br><br> TIME= 0.10000    <br><br> ERASE THE CURRENT DATABASE OUTPUT CONTROL TABLE.<br><br><br> WRITE ALL  ITEMS TO THE DATABASE WITH A FREQUENCY OF NONE<br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE NSOL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE RSOL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE EANG ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE ETMP ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE VENG ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE STRS ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE EPEL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE EPPL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE CONT ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> FINISH SOLUTION PROCESSING<br><br><br> ***** ROUTINE COMPLETED *****  CP =         0.672<br><br><br><br> *** ANSYS – ENGINEERING ANALYSIS SYSTEM  RELEASE 2022 R1          22.1     ***<br> DISTRIBUTED Ansys Mechanical Enterprise Academic Research     <br><br> 00000000  VERSION=WINDOWS x64   14:08:48  SEP 05, 2024 CP=      0.672<br><br> 800um_simplified_TEST–Static Structural (A5)                                 <br><br><br><br>          ***** ANSYS ANALYSIS DEFINITION (PREP7) *****<br><br> ELEMENT TYPE       9991 IS CPT215       3D COUPLED SOLID            <br>  KEYOPT( 1- 6)=        0      0      0        0      0      0<br>  KEYOPT( 7-12)=        0      0      0        0      0      0<br>  KEYOPT(13-18)=        0      0      0        0      0      0<br><br> CURRENT NODAL DOF SET IS  UX    UY    UZ    ROTX  ROTY  ROTZ<br>  THREE-DIMENSIONAL MODEL<br><br> ELEMENT TYPE    9991 IS CPT215       3D COUPLED SOLID            <br>  KEYOPT( 1- 6)=        0      0      0        0      0      0<br>  KEYOPT( 7-12)=        0      0      0        0      0      1<br>  KEYOPT(13-18)=        0      0      0        0      0      0<br><br> CURRENT NODAL DOF SET IS  UX    UY    UZ    ROTX  ROTY  ROTZ  PRES<br>  THREE-DIMENSIONAL MODEL<br><br> ELEMENT TYPE    9991 IS CPT215       3D COUPLED SOLID            <br>  KEYOPT( 1- 6)=        0      0      0        0      0      1<br>  KEYOPT( 7-12)=        0      0      0        0      0      1<br>  KEYOPT(13-18)=        0      0      0        0      0      0<br><br> CURRENT NODAL DOF SET IS  UX    UY    UZ    ROTX  ROTY  ROTZ  PRES<br>  THREE-DIMENSIONAL MODEL<br><br> SELECT       FOR ITEM=TYPE COMPONENT=    <br>  IN RANGE         1 TO         14 STEP          1<br><br>       8550  ELEMENTS (OF      10310  DEFINED) SELECTED BY  ESEL  COMMAND.<br><br> MODIFY ALL SELECTED ELEMENTS TO HAVE  TYPE =      9991<br><br> SELECT ALL ENTITIES OF TYPE= ALL  AND BELOW<br><br> MATERIAL      99999     EX   =  0.3000000E-02      <br><br> MATERIAL      99999     PRXY =  0.4900000          <br><br> PARAMETER FPX =     100000.0000    <br><br> PARAMETER ALPHA =     1.000000000    <br><br>   FLUID PERMEABILITY OPTION FOR MATERIAL 99999 <br> DATA FOR  PM  TABLE FOR MATERIAL   99999 AT TEMPERATURE=  23.0000    <br> LOC=  1 1.00000e+05     1.00000e+05     1.00000e+05    <br><br><br>   FLUID BIOT OPTION FOR MATERIAL 99999 <br> DATA FOR  PM  TABLE FOR MATERIAL   99999 AT TEMPERATURE=  23.0000    <br> LOC=  1 1.00000e+00    <br><br><br> NONE SELECT  FOR ITEM=ELEM COMPONENT=    <br>  IN RANGE         1 TO      16720 STEP          1<br><br>          0  ELEMENTS (OF      10310  DEFINED) SELECTED BY ESEL  COMMAND.<br><br> MATERIAL      88888     EX   =  0.1000000E-19      <br><br> MATERIAL      88888     PRXY =   0.000000          <br><br> SELECT       FOR ITEM=TYPE COMPONENT=    <br>  IN RANGE        15 TO         40 STEP          1<br><br>       1760  ELEMENTS (OF      10310  DEFINED) SELECTED BY  ESEL  COMMAND.<br><br> SET MATERIAL OF SELECTED ELEMENTS TO 88888<br><br> MATERIAL      88889     EX   =   300.0000          <br><br> MATERIAL      88889     PRXY =   0.000000          <br><br> SELECT ALL ENTITIES OF TYPE= ALL  AND BELOW<br>                                      <br>   INPUT SECTION ID NUMBER               1<br>   INPUT SECTION TYPE                 REINF<br>   INPUT REINF SECTION SUBTYPE        SMEA<br>   INPUT REINF SECTION NAME           1       <br><br> SECTION ID NUMBER=        1<br>                     <br>   SECTION ID NUMBER IS:            1<br>    Reinforcing Behavior: Tension Only<br>    Remove Base Material: YES<br>    Stress State        : Uni-axial<br>     REINFORCEMENT  #        1<br>        MatID         Area        Spacing  iEsys     Ori. Angle<br>        88889       50.0000        8.0000    12        0.0000<br>        PATTern        n<br>          LAYN         1<br><br><br> SELECT      COMPONENT KCS_12                          <br> GENERATE REINF ELEMENTS FROM THE SELECTED ELEMENTS<br><br> NUMBER OF ELEMENT TYPES CREATED =          1<br> MAXIMUM ELEMENT TYPE NUMBER     =       9992<br> Use ETLIST command to list new element types.<br><br> NUMBER OF REINF ELEMENT CREATED =        880<br> MAXIMUM ELEMENT NUMBER          =      17600<br> Use ELIST command to list new elements.<br><br> SELECT ALL ENTITIES OF TYPE= ALL  AND BELOW<br>                                      <br>   INPUT SECTION ID NUMBER               2<br>   INPUT SECTION TYPE                 REINF<br>   INPUT REINF SECTION SUBTYPE        SMEA<br>   INPUT REINF SECTION NAME           2       <br><br> SECTION ID NUMBER=        2<br>                     <br>   SECTION ID NUMBER IS:            2<br>    Reinforcing Behavior: Tension Only<br>    Remove Base Material: YES<br>    Stress State        : Uni-axial<br>     REINFORCEMENT  #        1<br>        MatID         Area        Spacing  iEsys     Ori. Angle<br>        88889       50.0000        8.0000    13        0.0000<br>        PATTern        n<br>          LAYN         1<br><br><br> SELECT      COMPONENT KCS_13                          <br> GENERATE REINF ELEMENTS FROM THE SELECTED ELEMENTS<br><br> NUMBER OF REINF ELEMENT CREATED =        880<br> MAXIMUM ELEMENT NUMBER          =      18480<br> Use ELIST command to list new elements.<br><br> SELECT ALL ENTITIES OF TYPE= ALL  AND BELOW<br><br> SELECT       FOR ITEM=TYPE COMPONENT=    <br>  IN RANGE      9991 TO       9991 STEP          1<br><br>       8550  ELEMENTS (OF      12070  DEFINED) SELECTED BY  ESEL  COMMAND.<br><br> SET MATERIAL OF SELECTED ELEMENTS TO 99999<br><br> SELECT ALL ENTITIES OF TYPE= ALL  AND BELOW<br><br> SELECT ALL ENTITIES OF TYPE= ALL  AND BELOW<br><br> SELECT       FOR ITEM=LOC  COMPONENT=Y     BETWEEN  1000.0     AND   1000.0    <br>   KABS=  0.  TOLERANCE=  5.00000    <br><br>        913  NODES (OF      10043  DEFINED) SELECTED BY  NSEL  COMMAND.<br><br> ALSO SELECT  FOR ITEM=LOC  COMPONENT=Y     BETWEEN  0.0000     AND   0.0000    <br>   KABS=  0.  TOLERANCE= 0.100000E-05<br><br>       1826  NODES (OF      10043  DEFINED) SELECTED BY  NSEL  COMMAND.<br><br> GENERATE SURFACE LOAD FFLX ON SURFACE DEFINED BY ALL SELECTED NODES<br> VALUE =   0.00000000    <br><br> NUMBER OF FFLX ELEMENT FACE LOADS STORED =       1710<br><br> SELECT ALL ENTITIES OF TYPE= ALL  AND BELOW<br><br> ACTIVE COORDINATE SYSTEM SET TO          5  (CYLINDRICAL) Y- CYL. AXIS<br><br> SELECT       FOR ITEM=LOC  COMPONENT=X     BETWEEN  3250.0     AND   3250.0    <br>   KABS=  0.  TOLERANCE=  16.2500    <br><br>        583  NODES (OF      10043  DEFINED) SELECTED BY  NSEL  COMMAND.<br><br> SPECIFIED CONSTRAINT PRES FOR SELECTED NODES            1 TO       10043 BY           1<br> REAL=  0.00000000       IMAG=  0.00000000    <br><br> SELECT ALL ENTITIES OF TYPE= ALL  AND BELOW<br><br> ACTIVE COORDINATE SYSTEM SET TO          0  (CARTESIAN)  <br><br> SELECT ALL ENTITIES OF TYPE= ALL  AND BELOW<br><br><br> ***** ROUTINE COMPLETED *****  CP =         0.984<br><br><br><br> *****  ANSYS SOLUTION ROUTINE  *****<br><br> *GET  ANSINTER_  FROM  ACTI  ITEM=INT        VALUE=  0.00000000    <br><br> *IF  ANSINTER_                         ( =   0.00000     )  NE  <br>      0                                 ( =   0.00000     )  THEN    <br><br> *ENDIF<br><br> *** NOTE ***                            CP =       1.125   TIME= 14:08:48<br> The automatic domain decomposition logic has selected the MESH domain   <br> decomposition method with 10 processes per solution.                    <br><br> *****  ANSYS SOLVE    COMMAND  *****<br><br> *** WARNING ***                         CP =       1.281   TIME= 14:08:48<br> Element shape checking is currently inactive.  Issue SHPP,ON or         <br> SHPP,WARN to reactivate, if desired.                                    <br><br> *** WARNING ***                         CP =       1.281   TIME= 14:08:48<br> CPT215 wedges are recommended only in regions of relatively low stress  <br> gradients.                                                              <br><br> *** NOTE ***                            CP =       1.281   TIME= 14:08:48<br> The model data was checked and warning messages were found.             <br>  Please review output or errors file ( C:\\Users\\mbgm4fs3\\OneDrive –     <br> The University of Manchester\\PhD\\Experimental\\Data\\2.                   <br> Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7\\file0.err ) for     <br> these warning messages.                                                 <br><br> *** SELECTION OF ELEMENT TECHNOLOGIES FOR APPLICABLE ELEMENTS ***<br>      — GIVE SUGGESTIONS AND RESET THE KEY OPTIONS —<br><br> ELEMENT TYPE        15 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        16 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        17 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        18 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        19 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        20 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        21 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        22 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        23 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        24 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        25 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        26 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        27 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        28 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        29 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        30 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        31 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        32 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        33 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        34 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        35 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        36 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        37 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        38 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        39 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br> ELEMENT TYPE        40 IS SHELL181. IT IS ASSOCIATED WITH ELASTOPLASTIC <br> MATERIALS ONLY. KEYOPT(8)=2 IS SUGGESTED AND KEYOPT(3)=2 IS SUGGESTED FOR<br> HIGHER ACCURACY OF MEMBRANE STRESSES; OTHERWISE, KEYOPT(3)=0 IS SUGGESTED. <br> KEYOPT(8) HAS BEEN RESET BUT KEYOPT(3) CAN NOT BE RESET HERE. PLEASE RESET <br> IT MANUALLY IF NECESSARY.<br>  KEYOPT(1-12)=    0    0    2    0    0    0    0    2    0    0    0    0<br><br><br><br> *** ANSYS – ENGINEERING ANALYSIS SYSTEM  RELEASE 2022 R1          22.1     ***<br> DISTRIBUTED Ansys Mechanical Enterprise Academic Research     <br><br> 00000000  VERSION=WINDOWS x64   14:08:48  SEP 05, 2024 CP=      1.438<br><br> 800um_simplified_TEST–Static Structural (A5)                                 <br><br><br><br>                       S O L U T I O N   O P T I O N S<br><br>   PROBLEM DIMENSIONALITY. . . . . . . . . . . . .3-D                  <br>   DEGREES OF FREEDOM. . . . . . UX   UY   UZ   ROTX ROTY ROTZ PRES<br>   ANALYSIS TYPE . . . . . . . . . . . . . . . . .STATIC (STEADY-STATE)<br>   OFFSET TEMPERATURE FROM ABSOLUTE ZERO . . . . .  273.15    <br>   NONLINEAR GEOMETRIC EFFECTS . . . . . . . . . .ON<br>   EQUATION SOLVER OPTION. . . . . . . . . . . . .SPARSE             <br>   PLASTIC MATERIAL PROPERTIES INCLUDED. . . . . .YES<br>   NEWTON-RAPHSON OPTION . . . . . . . . . . . . .PROGRAM CHOSEN   <br>   GLOBALLY ASSEMBLED MATRIX . . . . . . . . . . .UNSYMMETRIC<br><br> *** NOTE ***                            CP =       1.750   TIME= 14:08:48<br> The RESCONTROL command does not support fluid analyses.  The RESCONTROL <br> command settings have been de-activated.                                <br><br> *** NOTE ***                            CP =       1.750   TIME= 14:08:48<br> This nonlinear analysis defaults to using the full Newton-Raphson       <br> solution procedure.  This can be modified using the NROPT command.      <br><br> *** NOTE ***                            CP =       1.750   TIME= 14:08:48<br> Internal nodes from 10044 to 18593 are created.                         <br> 8550 internal nodes are used for non-contact elements with mixed        <br> formulation.                                                            <br><br>  <br>  <br>     D I S T R I B U T E D   D O M A I N   D E C O M P O S E R<br>  <br>  …Number of elements: 12070<br>  …Number of nodes:    18593<br>  …Decompose to 10 CPU domains<br>  …Element load balance ratio =     1.708<br><br><br>                      L O A D   S T E P   O P T I O N S<br><br>   LOAD STEP NUMBER. . . . . . . . . . . . . . . .     1<br>   TIME AT END OF THE LOAD STEP. . . . . . . . . . 0.10000    <br>   AUTOMATIC TIME STEPPING . . . . . . . . . . . .    ON<br>      INITIAL NUMBER OF SUBSTEPS . . . . . . . . .     5<br>      MAXIMUM NUMBER OF SUBSTEPS . . . . . . . . .  1000<br>      MINIMUM NUMBER OF SUBSTEPS . . . . . . . . .     1<br>   MAXIMUM NUMBER OF EQUILIBRIUM ITERATIONS. . . .    15<br>   STEP CHANGE BOUNDARY CONDITIONS . . . . . . . .    NO<br>   STRESS-STIFFENING . . . . . . . . . . . . . . .    ON<br>   TERMINATE ANALYSIS IF NOT CONVERGED . . . . . .YES (EXIT)  <br>   NODAL DOF SOLUTION LIMIT. . . . . . . . . . . . 0.10000E+10<br>   CONVERGENCE CONTROLS. . . . . . . . . . . . . .USE DEFAULTS<br>   COPY INTEGRATION POINT VALUES TO NODE . . . . .YES, FOR ELEMENTS WITH<br>                                                  ACTIVE MAT. NONLINEARITIES<br>   PRINT OUTPUT CONTROLS . . . . . . . . . . . . .NO PRINTOUT<br>   DATABASE OUTPUT CONTROLS<br>      ITEM     FREQUENCY   COMPONENT<br>       ALL       NONE               <br>      NSOL        ALL               <br>      RSOL        ALL               <br>      EANG        ALL               <br>      ETMP        ALL               <br>      VENG        ALL               <br>      STRS        ALL               <br>      EPEL        ALL               <br>      EPPL        ALL               <br>      CONT        ALL               <br><br><br> SOLUTION MONITORING INFO IS WRITTEN TO FILE= file.mntr                                                                                                                                                                                                                                                           <br><br> *** NOTE ***                            CP =       3.000   TIME= 14:08:48<br> Predictor is ON by default for structural elements with rotational      <br> degrees of freedom.  Use the PRED,OFF command to turn the predictor     <br> OFF if it adversely affects the convergence.                            <br><br><br> Range of element maximum matrix coefficients in global coordinates<br> Maximum = 468.75 at element 18080.                                      <br> Minimum = 3.511720105E-17 at element 15871.                             <br><br> *** WARNING ***                         CP =       3.266   TIME= 14:08:48<br> Coefficient ratio exceeds 1.0e8 – Check results.                        <br><br>   *** ELEMENT MATRIX FORMULATION TIMES<br>     TYPE    NUMBER   ENAME      TOTAL CP  AVE CP<br><br>       15        80  SHELL181      0.000   0.000000<br>       16        40  SHELL181      0.000   0.000000<br>       17        80  SHELL181      0.000   0.000000<br>       18        80  SHELL181      0.016   0.000195<br>       19        80  SHELL181      0.000   0.000000<br>       20        80  SHELL181      0.000   0.000000<br>       21        80  SHELL181      0.016   0.000195<br>       22        80  SHELL181      0.016   0.000195<br>       23        80  SHELL181      0.000   0.000000<br>       24        40  SHELL181      0.000   0.000000<br>       25        80  SHELL181      0.031   0.000391<br>       26        80  SHELL181      0.016   0.000195<br>       27        40  SHELL181      0.000   0.000000<br>       28        80  SHELL181      0.016   0.000195<br>       29        40  SHELL181      0.000   0.000000<br>       30        40  SHELL181      0.016   0.000391<br>       31        40  SHELL181      0.016   0.000391<br>       32        40  SHELL181      0.000   0.000000<br>       33        40  SHELL181      0.000   0.000000<br>       34        80  SHELL181      0.016   0.000195<br>       35        80  SHELL181      0.000   0.000000<br>       36        80  SHELL181      0.000   0.000000<br>       37        80  SHELL181      0.016   0.000195<br>       38        80  SHELL181      0.000   0.000000<br>       39        80  SHELL181      0.000   0.000000<br>       40        80  SHELL181      0.016   0.000195<br>     9991      8550  CPT215        1.359   0.000159<br>     9992      1760  REINF265      0.047   0.000027<br> Time at end of element matrix formulation CP = 3.265625.                <br>     FORCE CONVERGENCE VALUE  =  0.7561      CRITERION=  0.3857E-02<br>     MOMENT CONVERGENCE VALUE =  0.1102E-35  CRITERION=  0.2722E-01<br>     FL FLOW CONVERGENCE VALUE=  0.3939E+05  CRITERION=   201.0    <br><br> DISTRIBUTED SPARSE MATRIX DIRECT SOLVER.<br>  Number of equations =       51208,    Maximum wavefront =    245<br><br>  Process memory allocated for solver              =   144.271 MB<br>  Process memory required for in-core solution     =   101.080 MB<br>  Process memory required for out-of-core solution =    49.924 MB<br><br>  Total memory allocated for solver                =  1215.992 MB<br>  Total memory required for in-core solution       =   837.109 MB<br>  Total memory required for out-of-core solution   =   404.072 MB<br><br> *** NOTE ***                            CP =       3.531   TIME= 14:08:48<br> The Distributed Sparse Matrix Solver is currently running in the        <br> in-core memory mode.  This memory mode uses the most amount of memory   <br> in order to avoid using the hard drive as much as possible, which most  <br> often results in the fastest solution time.  This mode is recommended   <br> if enough physical memory is present to accommodate all of the solver   <br> data.                                                                   <br><br> *** WARNING ***                         CP =       3.531   TIME= 14:08:48<br> Pivoting has been activated for the Distributed Sparse Matrix Solver .  <br> The memory required may greatly exceed the predicted amount.  In that   <br> event, use the DSPOPTION command to change the memory mode and\/or       <br> memory size used by the Distributed Sparse Matrix Solver.               <br><br> *** NOTE ***                            CP =       3.531   TIME= 14:08:48<br> The system matrix is unsymmetric.                                       <br> curEqn=   6154  totEqn=   6154 Job CP sec=      4.281<br>      Factor Done=  97% Factor Wall sec=      0.640 rate=       9.3 GFlops<br> Distributed sparse solver maximum pivot= 5.229458564E+11 at node 9241   <br> UX.                                                                     <br> Distributed sparse solver minimum pivot= -2243515.26 at node 3008 PRES. <br> Distributed sparse solver minimum pivot in absolute value= 20773.7634   <br> at node 9869 ROTX.                                                      <br>     DISP CONVERGENCE VALUE   =  0.4267      CRITERION=  0.2177E-01<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.4267    <br>     FORCE CONVERGENCE VALUE  =   3.738      CRITERION=  0.2288E-01<br>     MOMENT CONVERGENCE VALUE =  0.1611E-22  CRITERION=  0.1614     <<< CONVERGED<br><br> *** WARNING ***                         CP =       4.578   TIME= 14:08:50<br> A reference moment value times the tolerance is used by the             <br> Newton-Raphson method for checking convergence.  The calculated         <br> reference MOMENT CONVERGENCE VALUE = 0 is less than a threshold.  This  <br> threshold is internally calculated.  You can overwrite it by            <br> specifying MINREF on the CNVTOL command.  Check results carefully.      <br>     FL FLOW CONVERGENCE VALUE=   34.91      CRITERION=  0.1406    <br>     DISP CONVERGENCE VALUE   =  0.9295E-03  CRITERION=  0.2226E-01 <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.9295E-03<br>     FORCE CONVERGENCE VALUE  =  0.7697E-04  CRITERION=  0.2341E-01 <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.1082E-23  CRITERION=  0.1652     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.8047E-01  CRITERION=  0.1433     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   2<br><br>   *** ELEMENT RESULT CALCULATION TIMES<br>     TYPE    NUMBER   ENAME      TOTAL CP  AVE CP<br><br>       15        80  SHELL181      0.016   0.000195<br>       16        40  SHELL181      0.000   0.000000<br>       17        80  SHELL181      0.000   0.000000<br>       18        80  SHELL181      0.000   0.000000<br>       19        80  SHELL181      0.000   0.000000<br>       20        80  SHELL181      0.000   0.000000<br>       21        80  SHELL181      0.000   0.000000<br>       22        80  SHELL181      0.000   0.000000<br>       23        80  SHELL181      0.000   0.000000<br>       24        40  SHELL181      0.000   0.000000<br>       25        80  SHELL181      0.016   0.000195<br>       26        80  SHELL181      0.016   0.000195<br>       27        40  SHELL181      0.000   0.000000<br>       28        80  SHELL181      0.000   0.000000<br>       29        40  SHELL181      0.000   0.000000<br>       30        40  SHELL181      0.016   0.000391<br>       31        40  SHELL181      0.016   0.000391<br>       32        40  SHELL181      0.000   0.000000<br>       33        40  SHELL181      0.000   0.000000<br>       34        80  SHELL181      0.000   0.000000<br>       35        80  SHELL181      0.000   0.000000<br>       36        80  SHELL181      0.000   0.000000<br>       37        80  SHELL181      0.016   0.000195<br>       38        80  SHELL181      0.000   0.000000<br>       39        80  SHELL181      0.000   0.000000<br>       40        80  SHELL181      0.000   0.000000<br>     9991      8550  CPT215        0.953   0.000111<br>     9992      1760  REINF265      0.062   0.000036<br><br>   *** NODAL LOAD CALCULATION TIMES<br>     TYPE    NUMBER   ENAME      TOTAL CP  AVE CP<br><br>       15        80  SHELL181      0.000   0.000000<br>       16        40  SHELL181      0.000   0.000000<br>       17        80  SHELL181      0.000   0.000000<br>       18        80  SHELL181      0.000   0.000000<br>       19        80  SHELL181      0.000   0.000000<br>       20        80  SHELL181      0.000   0.000000<br>       21        80  SHELL181      0.000   0.000000<br>       22        80  SHELL181      0.000   0.000000<br>       23        80  SHELL181      0.000   0.000000<br>       24        40  SHELL181      0.000   0.000000<br>       25        80  SHELL181      0.000   0.000000<br>       26        80  SHELL181      0.000   0.000000<br>       27        40  SHELL181      0.000   0.000000<br>       28        80  SHELL181      0.000   0.000000<br>       29        40  SHELL181      0.000   0.000000<br>       30        40  SHELL181      0.000   0.000000<br>       31        40  SHELL181      0.000   0.000000<br>       32        40  SHELL181      0.000   0.000000<br>       33        40  SHELL181      0.000   0.000000<br>       34        80  SHELL181      0.000   0.000000<br>       35        80  SHELL181      0.000   0.000000<br>       36        80  SHELL181      0.000   0.000000<br>       37        80  SHELL181      0.000   0.000000<br>       38        80  SHELL181      0.000   0.000000<br>       39        80  SHELL181      0.000   0.000000<br>       40        80  SHELL181      0.000   0.000000<br>     9991      8550  CPT215        0.047   0.000005<br>     9992      1760  REINF265      0.000   0.000000<br> *** LOAD STEP     1   SUBSTEP     1  COMPLETED.    CUM ITER =      2<br> *** TIME =  0.200000E-01     TIME INC =  0.200000E-01<br> *** MAX PORE PRESSURE STEP = 0.1063E-04<br> *** AUTO STEP TIME:  NEXT TIME INC = 0.20000E-01  UNCHANGED<br><br>     FORCE CONVERGENCE VALUE  =   7.518      CRITERION=  0.4505E-01<br>     MOMENT CONVERGENCE VALUE =  0.3464E-22  CRITERION=  0.3179    <br>     FL FLOW CONVERGENCE VALUE=   48.48      CRITERION=  0.1475    <br>     DISP CONVERGENCE VALUE   =  0.1806E-02  CRITERION=  0.2187E-01 <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.1806E-02<br>     FORCE CONVERGENCE VALUE  =  0.2186E-03  CRITERION=  0.4609E-01 <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.2216E-23  CRITERION=  0.3252     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.1420      CRITERION=  0.2256     <<< CONVERGED<br>     DISP CONVERGENCE VALUE   =  0.2321E-04  CRITERION=  0.2232E-01 <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.2321E-04<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   2<br> *** LOAD STEP     1   SUBSTEP     2  COMPLETED.    CUM ITER =      4<br> *** TIME =  0.400000E-01     TIME INC =  0.200000E-01<br> *** MAX PORE PRESSURE STEP = 0.9987E-05<br> *** AUTO TIME STEP:  NEXT TIME INC = 0.30000E-01  INCREASED (FACTOR = 1.5000)<br><br>     FORCE CONVERGENCE VALUE  =   14.23      CRITERION=  0.7935E-01<br>     MOMENT CONVERGENCE VALUE =  0.7454E-22  CRITERION=  0.5598    <br>     FL FLOW CONVERGENCE VALUE=   85.10      CRITERION=  0.3473    <br>     DISP CONVERGENCE VALUE   =  0.3344E-02  CRITERION=  0.3296E-01 <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.3344E-02<br>     FORCE CONVERGENCE VALUE  =  0.8090E-03  CRITERION=  0.8120E-01 <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6337E-23  CRITERION=  0.5729     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.4175      CRITERION=  0.3764    <br>     DISP CONVERGENCE VALUE   =  0.7817E-04  CRITERION=  0.3363E-01 <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.7817E-04<br>     FORCE CONVERGENCE VALUE  =  0.3357E-06  CRITERION=  0.8286E-01 <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.2434E-27  CRITERION=  0.5846     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.5830E-02  CRITERION=  0.3841     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   2<br> *** LOAD STEP     1   SUBSTEP     3  COMPLETED.    CUM ITER =      6<br> *** TIME =  0.700000E-01     TIME INC =  0.300000E-01<br> *** MAX PORE PRESSURE STEP = 0.1471E-04<br> *** AUTO STEP TIME:  NEXT TIME INC = 0.30000E-01  UNCHANGED<br><br>     FORCE CONVERGENCE VALUE  =   17.30      CRITERION=  0.1142    <br>     MOMENT CONVERGENCE VALUE =  0.9108E-22  CRITERION=  0.8056    <br>     FL FLOW CONVERGENCE VALUE=   82.59      CRITERION=  0.3852    <br>     DISP CONVERGENCE VALUE   =  0.4075E-02  CRITERION=  0.3313E-01 <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.4075E-02<br>     FORCE CONVERGENCE VALUE  =  0.1112E-02  CRITERION=  0.1168     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.7785E-23  CRITERION=  0.8240     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.4981      CRITERION=  0.4322    <br>     DISP CONVERGENCE VALUE   =  0.1047E-03  CRITERION=  0.3381E-01 <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.1047E-03<br>     FORCE CONVERGENCE VALUE  =  0.6169E-06  CRITERION=  0.1192     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.3398E-27  CRITERION=  0.8408     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.8170E-02  CRITERION=  0.4410     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   2<br> *** LOAD STEP     1   SUBSTEP     4  COMPLETED.    CUM ITER =      8<br> *** TIME =  0.100000         TIME INC =  0.300000E-01<br> *** MAX PORE PRESSURE STEP = 0.1469E-04<br><br><br> *** ANSYS BINARY FILE STATISTICS<br>  BUFFER SIZE USED= 16384<br>       18.938 MB WRITTEN ON ELEMENT MATRIX FILE: file0.emat<br>        9.250 MB WRITTEN ON ELEMENT SAVED DATA FILE: file0.esav<br>        8.500 MB WRITTEN ON ASSEMBLED MATRIX FILE: file0.full<br>        3.875 MB WRITTEN ON RESULTS FILE: file0.rst<br> *************** Write FE CONNECTORS *********<br><br> WRITE OUT CONSTRAINT EQUATIONS TO FILE= file.ce                                                                                                                                                                                                                                                             <br> ****************************************************<br> *************** FINISHED SOLVE FOR LS 1 *************<br> ****************************************************<br> ******************* SOLVE FOR LS 2 OF 3 ****************<br> *** Set Displacements ***<br><br> PRINTOUT RESUMED BY \/GOP<br><br> USE AUTOMATIC TIME STEPPING THIS LOAD STEP<br><br> USE       1 SUBSTEPS INITIALLY THIS LOAD STEP FOR ALL  DEGREES OF FREEDOM<br> FOR AUTOMATIC TIME STEPPING:<br>   USE    200 SUBSTEPS AS A MAXIMUM<br>   USE      1 SUBSTEPS AS A MINIMUM<br>   USE THE FINAL TIME STEP SIZE OF THE PREVIOUS LOAD STEP<br>     AS THE STARTING TIME STEP SIZE.<br><br> TIME=  20.000    <br><br> ERASE THE CURRENT DATABASE OUTPUT CONTROL TABLE.<br><br><br> WRITE ALL  ITEMS TO THE DATABASE WITH A FREQUENCY OF NONE<br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE NSOL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE RSOL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE EANG ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE ETMP ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE VENG ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE STRS ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE EPEL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE EPPL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> WRITE CONT ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL <br>   FOR ALL APPLICABLE ENTITIES<br><br> *****  ANSYS SOLVE    COMMAND  *****<br><br> *** NOTE ***                            CP =      14.094   TIME= 14:08:59<br> The RESCONTROL command does not support fluid analyses.  The RESCONTROL <br> command settings have been de-activated.                                <br><br> *** NOTE ***                            CP =      14.094   TIME= 14:08:59<br> This nonlinear analysis defaults to using the full Newton-Raphson       <br> solution procedure.  This can be modified using the NROPT command.      <br><br> *** ANSYS – ENGINEERING ANALYSIS SYSTEM  RELEASE 2022 R1          22.1     ***<br> DISTRIBUTED Ansys Mechanical Enterprise Academic Research     <br><br> 00000000  VERSION=WINDOWS x64   14:08:59  SEP 05, 2024 CP=     14.125<br><br> 800um_simplified_TEST–Static Structural (A5)                                 <br><br><br><br>                      L O A D   S T E P   O P T I O N S<br><br>   LOAD STEP NUMBER. . . . . . . . . . . . . . . .     2<br>   TIME AT END OF THE LOAD STEP. . . . . . . . . .  20.000    <br>   AUTOMATIC TIME STEPPING . . . . . . . . . . . .    ON<br>      INITIAL NUMBER OF SUBSTEPS . . . . . . . . .     1<br>      MAXIMUM NUMBER OF SUBSTEPS . . . . . . . . .   200<br>      MINIMUM NUMBER OF SUBSTEPS . . . . . . . . .     1<br>      START WITH TIME STEP FROM PREVIOUS SUBSTEP .   YES<br>   MAXIMUM NUMBER OF EQUILIBRIUM ITERATIONS. . . .    15<br>   STEP CHANGE BOUNDARY CONDITIONS . . . . . . . .    NO<br>   STRESS-STIFFENING . . . . . . . . . . . . . . .    ON<br>   TERMINATE ANALYSIS IF NOT CONVERGED . . . . . .YES (EXIT)  <br>   NODAL DOF SOLUTION LIMIT. . . . . . . . . . . . 0.10000E+10<br>   CONVERGENCE CONTROLS. . . . . . . . . . . . . .USE DEFAULTS<br>   COPY INTEGRATION POINT VALUES TO NODE . . . . .YES, FOR ELEMENTS WITH<br>                                                  ACTIVE MAT. NONLINEARITIES<br>   PRINT OUTPUT CONTROLS . . . . . . . . . . . . .NO PRINTOUT<br>   DATABASE OUTPUT CONTROLS<br>      ITEM     FREQUENCY   COMPONENT<br>       ALL       NONE               <br>      NSOL        ALL               <br>      RSOL        ALL               <br>      EANG        ALL               <br>      ETMP        ALL               <br>      VENG        ALL               <br>      STRS        ALL               <br>      EPEL        ALL               <br>      EPPL        ALL               <br>      CONT        ALL               <br><br><br> SOLUTION MONITORING INFO IS WRITTEN TO FILE= file.mntr                                                                                                                                                                                                                                                           <br><br> *** NOTE ***                            CP =      14.156   TIME= 14:08:59<br> Predictor is ON by default for structural elements with rotational      <br> degrees of freedom.  Use the PRED,OFF command to turn the predictor     <br> OFF if it adversely affects the convergence.                            <br><br>     FORCE CONVERGENCE VALUE  =   3.825      CRITERION=  0.1161    <br>     MOMENT CONVERGENCE VALUE =  0.1426E-24  CRITERION=  0.8192    <br>     FL FLOW CONVERGENCE VALUE=  0.1962E+06  CRITERION=   1001.    <br>     DISP CONVERGENCE VALUE   =   2.159      CRITERION=  0.1102    <br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   2.159    <br>     FORCE CONVERGENCE VALUE  =   97.00      CRITERION=  0.2366    <br>     MOMENT CONVERGENCE VALUE =  0.8223E-21  CRITERION=   1.670     <<< CONVERGED<br><br> *** WARNING ***                         CP =      15.594   TIME= 14:09:01<br> A reference moment value times the tolerance is used by the             <br> Newton-Raphson method for checking convergence.  The calculated         <br> reference MOMENT CONVERGENCE VALUE = 0 is less than a threshold.  This  <br> threshold is internally calculated.  You can overwrite it by            <br> specifying MINREF on the CNVTOL command.  Check results carefully.      <br>     FL FLOW CONVERGENCE VALUE=   890.6      CRITERION=   1.657    <br>     DISP CONVERGENCE VALUE   =  0.2326E-01  CRITERION=  0.1135     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.2326E-01<br>     FORCE CONVERGENCE VALUE  =  0.4225E-01  CRITERION=  0.2434     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.1500E-21  CRITERION=   1.717     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   11.07      CRITERION=   1.675    <br>     DISP CONVERGENCE VALUE   =  0.2779E-02  CRITERION=  0.1159     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.2779E-02<br>     FORCE CONVERGENCE VALUE  =  0.5512E-03  CRITERION=  0.2483     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.4675E-25  CRITERION=   1.752     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.8641      CRITERION=   1.709     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   3<br> *** LOAD STEP     2   SUBSTEP     1  COMPLETED.    CUM ITER =     11<br> *** TIME =  0.199500         TIME INC =  0.995000E-01<br> *** MAX PORE PRESSURE STEP = 0.4906E-04<br> *** AUTO STEP TIME:  NEXT TIME INC = 0.99500E-01  UNCHANGED<br><br>     FORCE CONVERGENCE VALUE  =   199.5      CRITERION=  0.3550    <br>     MOMENT CONVERGENCE VALUE =  0.2309E-20  CRITERION=   2.505    <br>     FL FLOW CONVERGENCE VALUE=   855.3      CRITERION=   1.769    <br>     DISP CONVERGENCE VALUE   =  0.4801E-01  CRITERION=  0.1133     <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.4801E-01<br>     FORCE CONVERGENCE VALUE  =  0.1140      CRITERION=  0.3660     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.3248E-21  CRITERION=   2.583     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   21.09      CRITERION=   1.898    <br>     DISP CONVERGENCE VALUE   =  0.7567E-02  CRITERION=  0.1156     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.7567E-02<br>     FORCE CONVERGENCE VALUE  =  0.4512E-02  CRITERION=  0.3733     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.1455E-24  CRITERION=   2.634     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   2.672      CRITERION=   1.934    <br>     DISP CONVERGENCE VALUE   =  0.3288E-04  CRITERION=  0.1180     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.3288E-04<br>     FORCE CONVERGENCE VALUE  =  0.1117E-05  CRITERION=  0.3809     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6184E-26  CRITERION=   2.687     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.7808E-02  CRITERION=   1.974     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   3<br> *** LOAD STEP     2   SUBSTEP     2  COMPLETED.    CUM ITER =     14<br> *** TIME =  0.299000         TIME INC =  0.995000E-01<br> *** MAX PORE PRESSURE STEP = 0.5058E-04<br> *** AUTO TIME STEP:  NEXT TIME INC = 0.14925      INCREASED (FACTOR = 1.5000)<br><br>     FORCE CONVERGENCE VALUE  =   392.1      CRITERION=  0.5498    <br>     MOMENT CONVERGENCE VALUE =  0.5622E-20  CRITERION=   3.879    <br>     FL FLOW CONVERGENCE VALUE=   2036.      CRITERION=   3.107    <br>     DISP CONVERGENCE VALUE   =  0.9542E-01  CRITERION=  0.1739     <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.9542E-01<br>     FORCE CONVERGENCE VALUE  =  0.3978      CRITERION=  0.5694     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.9866E-21  CRITERION=   4.018     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   67.98      CRITERION=   3.161    <br>     DISP CONVERGENCE VALUE   =  0.2438E-01  CRITERION=  0.1774     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.2438E-01<br>     FORCE CONVERGENCE VALUE  =  0.4422E-01  CRITERION=  0.5802     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.8360E-24  CRITERION=   4.094     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   13.39      CRITERION=   3.217    <br>     DISP CONVERGENCE VALUE   =  0.1460E-03  CRITERION=  0.1810     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.1460E-03<br>     FORCE CONVERGENCE VALUE  =  0.7871E-05  CRITERION=  0.5920     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.9100E-25  CRITERION=   4.177     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.5809E-01  CRITERION=   3.284     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   3<br> *** LOAD STEP     2   SUBSTEP     3  COMPLETED.    CUM ITER =     17<br> *** TIME =  0.448250         TIME INC =  0.149250    <br> *** MAX PORE PRESSURE STEP = 0.8013E-04<br> *** AUTO TIME STEP:  NEXT TIME INC = 0.22387      INCREASED (FACTOR = 1.5000)<br><br>     FORCE CONVERGENCE VALUE  =   937.8      CRITERION=  0.8648    <br>     MOMENT CONVERGENCE VALUE =  0.1953E-19  CRITERION=   6.101    <br>     FL FLOW CONVERGENCE VALUE=   4655.      CRITERION=   5.524    <br>     DISP CONVERGENCE VALUE   =  0.2307      CRITERION=  0.2702     <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.2307    <br>     FORCE CONVERGENCE VALUE  =   1.735      CRITERION=  0.9064    <br>     MOMENT CONVERGENCE VALUE =  0.3717E-20  CRITERION=   6.395     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   271.9      CRITERION=   5.389    <br>     DISP CONVERGENCE VALUE   =  0.9184E-01  CRITERION=  0.2757     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.9184E-01<br>     FORCE CONVERGENCE VALUE  =  0.5686      CRITERION=  0.9209     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6311E-23  CRITERION=   6.497     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   81.36      CRITERION=   5.465    <br>     DISP CONVERGENCE VALUE   =  0.6871E-03  CRITERION=  0.2813     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.6871E-03<br>     FORCE CONVERGENCE VALUE  =  0.9802E-04  CRITERION=  0.9397     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.1729E-23  CRITERION=   6.630     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.5157      CRITERION=   5.583     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   3<br> *** LOAD STEP     2   SUBSTEP     4  COMPLETED.    CUM ITER =     20<br> *** TIME =  0.672125         TIME INC =  0.223875    <br> *** MAX PORE PRESSURE STEP = 0.1328E-03<br> *** AUTO TIME STEP:  NEXT TIME INC = 0.33581      INCREASED (FACTOR = 1.5000)<br><br>     FORCE CONVERGENCE VALUE  =   2309.      CRITERION=   1.398    <br>     MOMENT CONVERGENCE VALUE =  0.7181E-19  CRITERION=   9.860    <br>     FL FLOW CONVERGENCE VALUE=  0.1100E+05  CRITERION=   10.66    <br>     DISP CONVERGENCE VALUE   =  0.5877      CRITERION=  0.4277    <br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.5877    <br>     FORCE CONVERGENCE VALUE  =   8.988      CRITERION=   1.504    <br>     MOMENT CONVERGENCE VALUE =  0.1456E-19  CRITERION=   10.61     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   1181.      CRITERION=   9.454    <br>     DISP CONVERGENCE VALUE   =  0.2859      CRITERION=  0.4365     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.2859    <br>     FORCE CONVERGENCE VALUE  =   6.048      CRITERION=   1.514    <br>     MOMENT CONVERGENCE VALUE =  0.5984E-22  CRITERION=   10.68     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   466.7      CRITERION=   9.511    <br>     DISP CONVERGENCE VALUE   =  0.6182E-02  CRITERION=  0.4454     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.6182E-02<br>     FORCE CONVERGENCE VALUE  =  0.6423E-02  CRITERION=   1.545     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.2895E-22  CRITERION=   10.90     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   6.575      CRITERION=   9.733     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   3<br> *** LOAD STEP     2   SUBSTEP     5  COMPLETED.    CUM ITER =     23<br> *** TIME =   1.00794         TIME INC =  0.335812    <br> *** MAX PORE PRESSURE STEP = 0.2336E-03<br> *** AUTO TIME STEP:  NEXT TIME INC = 0.50372      INCREASED (FACTOR = 1.5000)<br><br>     FORCE CONVERGENCE VALUE  =   5919.      CRITERION=   2.363    <br>     MOMENT CONVERGENCE VALUE =  0.2848E-18  CRITERION=   16.67    <br>     FL FLOW CONVERGENCE VALUE=  0.2711E+05  CRITERION=   23.47    <br>     DISP CONVERGENCE VALUE   =   1.657      CRITERION=  0.6969    <br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -1.657    <br>     FORCE CONVERGENCE VALUE  =   56.33      CRITERION=   2.719    <br>     MOMENT CONVERGENCE VALUE =  0.5987E-19  CRITERION=   19.18     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   5722.      CRITERION=   18.37    <br>     DISP CONVERGENCE VALUE   =  0.7270      CRITERION=  0.7112    <br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.7270    <br>     FORCE CONVERGENCE VALUE  =   54.06      CRITERION=   2.659    <br>     MOMENT CONVERGENCE VALUE =  0.7938E-21  CRITERION=   18.76     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   2519.      CRITERION=   18.24    <br>     DISP CONVERGENCE VALUE   =  0.7907E-01  CRITERION=  0.7257     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.7907E-01<br>     FORCE CONVERGENCE VALUE  =  0.6206      CRITERION=   2.712     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.4665E-21  CRITERION=   19.14     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   131.4      CRITERION=   18.67    <br>     DISP CONVERGENCE VALUE   =  0.9801E-02  CRITERION=  0.7405     <<< CONVERGED<br>    EQUIL ITER   4 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.9801E-02<br>     FORCE CONVERGENCE VALUE  =  0.6155E-02  CRITERION=   2.768     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6029E-23  CRITERION=   19.53     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   13.81      CRITERION=   19.06     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   4<br> *** LOAD STEP     2   SUBSTEP     6  COMPLETED.    CUM ITER =     27<br> *** TIME =   1.51166         TIME INC =  0.503719    <br> *** MAX PORE PRESSURE STEP = 0.4560E-03<br> *** AUTO TIME STEP:  NEXT TIME INC = 0.75558      INCREASED (FACTOR = 1.5000)<br><br>     FORCE CONVERGENCE VALUE  =  0.1582E+05  CRITERION=   4.343    <br>     MOMENT CONVERGENCE VALUE =  0.1287E-17  CRITERION=   30.64    <br>     FL FLOW CONVERGENCE VALUE=  0.7247E+05  CRITERION=   63.93    <br>     DISP CONVERGENCE VALUE   =   4.684      CRITERION=   1.186    <br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -4.684    <br>     FORCE CONVERGENCE VALUE  =   431.1      CRITERION=   6.029    <br>     MOMENT CONVERGENCE VALUE =  0.2530E-18  CRITERION=   42.54     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.3170E+05  CRITERION=   46.77    <br>     DISP CONVERGENCE VALUE   =   2.180      CRITERION=   1.222    <br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   2.180    <br>     FORCE CONVERGENCE VALUE  =   302.6      CRITERION=   5.411    <br>     MOMENT CONVERGENCE VALUE =  0.1157E-19  CRITERION=   38.18     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.1143E+05  CRITERION=   48.47    <br>     DISP CONVERGENCE VALUE   =  0.5966      CRITERION=   1.247     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.5966    <br>     FORCE CONVERGENCE VALUE  =   52.40      CRITERION=   5.522    <br>     MOMENT CONVERGENCE VALUE =  0.5196E-20  CRITERION=   38.96     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   3061.      CRITERION=   49.28    <br>     DISP CONVERGENCE VALUE   =  0.2303      CRITERION=   1.273     <<< CONVERGED<br>    EQUIL ITER   4 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.2303    <br>     FORCE CONVERGENCE VALUE  =   3.313      CRITERION=   5.629     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.7963E-21  CRITERION=   39.72     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   692.3      CRITERION=   50.31    <br>     DISP CONVERGENCE VALUE   =  0.9720E-02  CRITERION=   1.299     <<< CONVERGED<br>    EQUIL ITER   5 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.9720E-02<br>     FORCE CONVERGENCE VALUE  =  0.2244E-01  CRITERION=   5.744     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.5824E-22  CRITERION=   40.53     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   38.77      CRITERION=   51.33     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   5<br> *** LOAD STEP     2   SUBSTEP     7  COMPLETED.    CUM ITER =     32<br> *** TIME =   2.26723         TIME INC =  0.755578    <br> *** MAX PORE PRESSURE STEP = 0.1118E-02<br> *** AUTO TIME STEP:  NEXT TIME INC =  1.1334      INCREASED (FACTOR = 1.5000)<br><br>     VOLUMETRIC COMPATIBILITY IS NOT SATISFIED FOR    100 U-P ELEMENTS<br>     FORCE CONVERGENCE VALUE  =  0.4045E+05  CRITERION=   9.588    <br>     MOMENT CONVERGENCE VALUE =  0.7521E-17  CRITERION=   67.65    <br>     FL FLOW CONVERGENCE VALUE=  0.2288E+06  CRITERION=   239.4    <br>     DISP CONVERGENCE VALUE   =   13.24      CRITERION=   2.091    <br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -13.24    <br>     FORCE CONVERGENCE VALUE  =   6138.      CRITERION=   19.17    <br>     MOMENT CONVERGENCE VALUE =  0.1108E-17  CRITERION=   135.2     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.1728E+06  CRITERION=   161.6    <br>     DISP CONVERGENCE VALUE   =   4.640      CRITERION=   2.227    <br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -4.640    <br>     FORCE CONVERGENCE VALUE  =   2161.      CRITERION=   17.12    <br>     MOMENT CONVERGENCE VALUE =  0.2520E-18  CRITERION=   120.8     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.7262E+05  CRITERION=   212.2    <br>     DISP CONVERGENCE VALUE   =   3.069      CRITERION=   2.278    <br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   3.069    <br>     FORCE CONVERGENCE VALUE  =   1940.      CRITERION=   17.57    <br>     MOMENT CONVERGENCE VALUE =  0.3257E-19  CRITERION=   124.0     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.3077E+05  CRITERION=   221.1    <br>     DISP CONVERGENCE VALUE   =  0.9579      CRITERION=   2.329     <<< CONVERGED<br>    EQUIL ITER   4 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.9579    <br>     FORCE CONVERGENCE VALUE  =   129.3      CRITERION=   17.83    <br>     MOMENT CONVERGENCE VALUE =  0.4058E-19  CRITERION=   125.8     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.1062E+05  CRITERION=   233.4    <br>     DISP CONVERGENCE VALUE   =  0.3916      CRITERION=   2.377     <<< CONVERGED<br>    EQUIL ITER   5 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.3916    <br>     FORCE CONVERGENCE VALUE  =   18.15      CRITERION=   18.20     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.2693E-20  CRITERION=   128.4     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   2981.      CRITERION=   239.9    <br>     DISP CONVERGENCE VALUE   =  0.2909E-01  CRITERION=   2.426     <<< CONVERGED<br>    EQUIL ITER   6 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.2909E-01<br>     FORCE CONVERGENCE VALUE  =  0.1215      CRITERION=   18.57     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.4904E-21  CRITERION=   131.0     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   265.3      CRITERION=   245.1    <br>     DISP CONVERGENCE VALUE   =  0.2002E-02  CRITERION=   2.475     <<< CONVERGED<br>    EQUIL ITER   7 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.2002E-02<br>     FORCE CONVERGENCE VALUE  =  0.2682E-02  CRITERION=   18.94     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.1349E-20  CRITERION=   133.7     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   14.92      CRITERION=   250.1     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   7<br> *** LOAD STEP     2   SUBSTEP     8  COMPLETED.    CUM ITER =     39<br> *** TIME =   3.40060         TIME INC =   1.13337    <br> *** MAX PORE PRESSURE STEP = 0.4758E-02<br> *** AUTO STEP TIME:  NEXT TIME INC =  1.1334      UNCHANGED<br><br>     VOLUMETRIC COMPATIBILITY IS NOT SATISFIED FOR    390 U-P ELEMENTS<br>     FORCE CONVERGENCE VALUE  =  0.4581E+05  CRITERION=   28.54    <br>     MOMENT CONVERGENCE VALUE =  0.2427E-16  CRITERION=   201.4    <br>     FL FLOW CONVERGENCE VALUE=  0.4307E+06  CRITERION=   660.3    <br>     DISP CONVERGENCE VALUE   =   17.82      CRITERION=   2.425    <br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   17.82    <br>     FORCE CONVERGENCE VALUE  =   5937.      CRITERION=   46.44    <br>     MOMENT CONVERGENCE VALUE =  0.2157E-17  CRITERION=   327.7     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.2027E+06  CRITERION=   320.4    <br>     DISP CONVERGENCE VALUE   =   34.97      CRITERION=   2.475    <br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   34.97    <br>     VOLUMETRIC COMPATIBILITY IS NOT SATISFIED FOR     50 U-P ELEMENTS<br>     FORCE CONVERGENCE VALUE  =   7166.      CRITERION=   48.01    <br>     MOMENT CONVERGENCE VALUE =  0.1096E-17  CRITERION=   338.7     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.2362E+06  CRITERION=   271.3    <br>     DISP CONVERGENCE VALUE   =   14.97      CRITERION=   2.525    <br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -14.97    <br>     VOLUMETRIC COMPATIBILITY IS NOT SATISFIED FOR     10 U-P ELEMENTS<br>     FORCE CONVERGENCE VALUE  =   1031.      CRITERION=   49.50    <br>     MOMENT CONVERGENCE VALUE =  0.2221E-18  CRITERION=   349.2     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.7745E+05  CRITERION=   256.4    <br>     DISP CONVERGENCE VALUE   =   12.01      CRITERION=   2.577    <br>    EQUIL ITER   4 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -12.01    <br>     FORCE CONVERGENCE VALUE  =   432.7      CRITERION=   50.40    <br>     MOMENT CONVERGENCE VALUE =  0.5230E-18  CRITERION=   355.6     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.3753E+05  CRITERION=   268.5    <br>     DISP CONVERGENCE VALUE   =   2.878      CRITERION=   2.630    <br>    EQUIL ITER   5 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -2.878    <br>     FORCE CONVERGENCE VALUE  =   5.817      CRITERION=   51.48     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.2304E-17  CRITERION=   363.2     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   9376.      CRITERION=   275.9    <br>     DISP CONVERGENCE VALUE   =  0.7062      CRITERION=   2.683     <<< CONVERGED<br>    EQUIL ITER   6 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.7062    <br>     FORCE CONVERGENCE VALUE  =  0.7384      CRITERION=   52.53     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.1639E-16  CRITERION=   370.6     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   2734.      CRITERION=   281.7    <br>     DISP CONVERGENCE VALUE   =  0.2700      CRITERION=   2.738     <<< CONVERGED<br>    EQUIL ITER   7 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   1.130    <br>     FORCE CONVERGENCE VALUE  =  0.2003      CRITERION=   53.60     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.5060E-16  CRITERION=   378.2     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   1057.      CRITERION=   287.4    <br>     DISP CONVERGENCE VALUE   =  0.1129      CRITERION=   2.794     <<< CONVERGED<br>    EQUIL ITER   8 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.7755    <br>     FORCE CONVERGENCE VALUE  =  0.7950E-01  CRITERION=   54.70     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.5057E-16  CRITERION=   1304.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   443.5      CRITERION=   293.3    <br>     DISP CONVERGENCE VALUE   =  0.4754E-01  CRITERION=   2.851     <<< CONVERGED<br>    EQUIL ITER   9 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  0.7791    <br>     FORCE CONVERGENCE VALUE  =  0.3336E-01  CRITERION=   55.81     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6252E-16  CRITERION=   1444.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   186.3      CRITERION=   299.3     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   9<br> *** LOAD STEP     2   SUBSTEP     9  COMPLETED.    CUM ITER =     48<br> *** TIME =   4.53397         TIME INC =   1.13337    <br> *** MAX PORE PRESSURE STEP = 0.1223E-01<br> *** AUTO STEP TIME:  NEXT TIME INC =  1.1334      UNCHANGED<br><br>     VOLUMETRIC COMPATIBILITY IS NOT SATISFIED FOR    190 U-P ELEMENTS<br>     FORCE CONVERGENCE VALUE  =  0.2435E+05  CRITERION=   76.72    <br>     MOMENT CONVERGENCE VALUE =  0.2261E-15  CRITERION=   541.3    <br>     FL FLOW CONVERGENCE VALUE=  0.6893E+06  CRITERION=   382.2    <br>     DISP CONVERGENCE VALUE   =   8.530      CRITERION=   2.425    <br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -8.530    <br>     FORCE CONVERGENCE VALUE  =   1181.      CRITERION=   81.14    <br>     MOMENT CONVERGENCE VALUE =  0.2108E-15  CRITERION=   572.5     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.9262E+05  CRITERION=   187.3    <br>     DISP CONVERGENCE VALUE   =   267.2      CRITERION=   13.73    <br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   267.2    <br><br> *** ERROR ***                           CP =      72.000   TIME= 14:09:58<br> Element 1927 (CPT215) is turning inside out.                            <br><br> *** ERROR ***                           CP =      72.000   TIME= 14:09:58<br> Element 1927 (CPT215) is turning inside out.                            <br><br> *** ERROR ***                           CP =      72.000   TIME= 14:09:58<br> Element 1927 (CPT215) is turning inside out.                            <br><br> *** ERROR ***                           CP =      72.000   TIME= 14:09:58<br> Element 1927 (CPT215) is turning inside out.                            <br> *** LOAD STEP     2   SUBSTEP    10  NOT COMPLETED.  CUM ITER =     51<br> *** BEGIN BISECTION NUMBER   1    NEW TIME INCREMENT=  0.39668    <br><br>     FORCE CONVERGENCE VALUE  =   5879.      CRITERION=   57.09    <br>     MOMENT CONVERGENCE VALUE =  0.1579E-15  CRITERION=   402.8    <br>     FL FLOW CONVERGENCE VALUE=  0.1463E+06  CRITERION=   97.41    <br>     DISP CONVERGENCE VALUE   =   3.466      CRITERION=   2.425    <br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -3.466    <br>     FORCE CONVERGENCE VALUE  =   185.6      CRITERION=   59.07    <br>     MOMENT CONVERGENCE VALUE =  0.3736E-15  CRITERION=   416.7     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=  0.1222E+05  CRITERION=   62.15    <br>     DISP CONVERGENCE VALUE   =   2.332      CRITERION=   2.475     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   2.332    <br>     FORCE CONVERGENCE VALUE  =   208.7      CRITERION=   60.64    <br>     MOMENT CONVERGENCE VALUE =  0.1069E-15  CRITERION=   427.8     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   6387.      CRITERION=   62.62    <br>     DISP CONVERGENCE VALUE   =  0.9841E-01  CRITERION=   2.525     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.7170    <br>     FORCE CONVERGENCE VALUE  =  0.5591      CRITERION=   61.89     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6755E-16  CRITERION=   436.6     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   155.3      CRITERION=   64.08    <br>     DISP CONVERGENCE VALUE   =  0.1904E-01  CRITERION=   2.577     <<< CONVERGED<br>    EQUIL ITER   4 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC= -0.5226    <br>     FORCE CONVERGENCE VALUE  =  0.4401E-01  CRITERION=   63.15     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.8709E-16  CRITERION=   445.6     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   35.96      CRITERION=   65.40     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   4<br> *** LOAD STEP     2   SUBSTEP    10  COMPLETED.    CUM ITER =     54<br> *** TIME =   4.93065         TIME INC =  0.396679    <br> *** MAX PORE PRESSURE STEP = 0.4618E-02<br> *** AUTO STEP TIME:  NEXT TIME INC = 0.39668      UNCHANGED<br><br>     FORCE CONVERGENCE VALUE  =   666.6      CRITERION=   69.95    <br>     MOMENT CONVERGENCE VALUE =  0.1975E-15  CRITERION=   493.5    <br>     FL FLOW CONVERGENCE VALUE=  0.7014E+05  CRITERION=   48.63    <br>     DISP CONVERGENCE VALUE   =   1.067      CRITERION=   2.425     <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   1.939    <br>     FORCE CONVERGENCE VALUE  =   31.23      CRITERION=   71.24     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.2013E-15  CRITERION=   502.6     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   3367.      CRITERION=   48.02    <br>     DISP CONVERGENCE VALUE   =  0.1581      CRITERION=   2.475     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   1.363    <br>     FORCE CONVERGENCE VALUE  =   1.372      CRITERION=   72.71     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.3373E-15  CRITERION=   513.0     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   280.6      CRITERION=   49.06    <br>     DISP CONVERGENCE VALUE   =  0.2799E-01  CRITERION=   2.525     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -4.089    <br>     FORCE CONVERGENCE VALUE  =  0.2609      CRITERION=   74.20     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.1580E-15  CRITERION=   523.5     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   43.70      CRITERION=   50.08     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   3<br> *** LOAD STEP     2   SUBSTEP    11  COMPLETED.    CUM ITER =     57<br> *** TIME =   5.32733         TIME INC =  0.396679    <br> *** MAX PORE PRESSURE STEP = 0.4522E-02<br> *** AUTO TIME STEP:  NEXT TIME INC = 0.59502      INCREASED (FACTOR = 1.5000)<br><br>     FORCE CONVERGENCE VALUE  =   587.3      CRITERION=   87.18    <br>     MOMENT CONVERGENCE VALUE =  0.3086E-15  CRITERION=   615.1    <br>     FL FLOW CONVERGENCE VALUE=  0.8860E+05  CRITERION=   66.17    <br>     DISP CONVERGENCE VALUE   =   1.496      CRITERION=   2.425     <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   8.691    <br>     FORCE CONVERGENCE VALUE  =   38.51      CRITERION=   88.40     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.3608E-15  CRITERION=   623.7     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   5290.      CRITERION=   59.75    <br>     DISP CONVERGENCE VALUE   =  0.1473      CRITERION=   2.475     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -3.891    <br>     FORCE CONVERGENCE VALUE  =   1.505      CRITERION=   90.20     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.3548E-15  CRITERION=   636.4     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   426.3      CRITERION=   60.97    <br>     DISP CONVERGENCE VALUE   =  0.3329E-01  CRITERION=   2.525     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   6.286    <br>     FORCE CONVERGENCE VALUE  =  0.3339      CRITERION=   92.05     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.4107E-15  CRITERION=   649.4     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   96.47      CRITERION=   62.20    <br>     DISP CONVERGENCE VALUE   =  0.3904E-01  CRITERION=   2.577     <<< CONVERGED<br>    EQUIL ITER   4 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   4.981    <br>     FORCE CONVERGENCE VALUE  =  0.1015      CRITERION=   93.92     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.3452E-15  CRITERION=   662.7     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   102.7      CRITERION=   63.48    <br>     DISP CONVERGENCE VALUE   =  0.5016E-01  CRITERION=   2.630     <<< CONVERGED<br>    EQUIL ITER   5 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   3.366    <br>     FORCE CONVERGENCE VALUE  =  0.5361E-01  CRITERION=   95.84     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6781E-15  CRITERION=   676.2     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   126.7      CRITERION=   64.77    <br>     DISP CONVERGENCE VALUE   =  0.6416E-01  CRITERION=   2.683     <<< CONVERGED<br>    EQUIL ITER   6 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -3.811    <br>     FORCE CONVERGENCE VALUE  =  0.5683E-01  CRITERION=   97.80     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.7182E-15  CRITERION=   690.0     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   158.6      CRITERION=   66.09    <br>     DISP CONVERGENCE VALUE   =  0.8207E-01  CRITERION=   2.738     <<< CONVERGED<br>    EQUIL ITER   7 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   2.992    <br>     FORCE CONVERGENCE VALUE  =  0.7051E-01  CRITERION=   99.79     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.4953E-15  CRITERION=   704.1     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   199.4      CRITERION=   67.44    <br>     DISP CONVERGENCE VALUE   =  0.1050      CRITERION=   2.794     <<< CONVERGED<br>    EQUIL ITER   8 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -2.960    <br>     FORCE CONVERGENCE VALUE  =  0.8889E-01  CRITERION=   101.8     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.2620E-15  CRITERION=   2546.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   251.6      CRITERION=   68.82    <br>     DISP CONVERGENCE VALUE   =  0.1342      CRITERION=   2.851     <<< CONVERGED<br>    EQUIL ITER   9 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   2.774    <br>     FORCE CONVERGENCE VALUE  =  0.1124      CRITERION=   103.9     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.2076E-15  CRITERION=   2547.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   318.3      CRITERION=   70.22    <br>    >>> PREDICTED NUMBER OF ITERATIONS FOR CONVERGENCE=  30 EXCEEDS MAX OF  15<br> *** LOAD STEP     2   SUBSTEP    12  NOT COMPLETED.  CUM ITER =     67<br> *** BEGIN BISECTION NUMBER   1    NEW TIME INCREMENT=  0.29751    <br><br>     FORCE CONVERGENCE VALUE  =   205.8      CRITERION=   78.51    <br>     MOMENT CONVERGENCE VALUE =  0.2853E-15  CRITERION=   554.0    <br>     FL FLOW CONVERGENCE VALUE=  0.3095E+05  CRITERION=   30.83    <br>     DISP CONVERGENCE VALUE   =  0.6181      CRITERION=   2.425     <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -6.432    <br>     FORCE CONVERGENCE VALUE  =   7.216      CRITERION=   79.88     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.2714E-15  CRITERION=   563.6     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   1083.      CRITERION=   29.37    <br>     DISP CONVERGENCE VALUE   =  0.3623E-01  CRITERION=   2.475     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -4.935    <br>     FORCE CONVERGENCE VALUE  =  0.3910      CRITERION=   81.51     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.3278E-15  CRITERION=   575.1     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   64.57      CRITERION=   30.02    <br>     DISP CONVERGENCE VALUE   =  0.8467E-02  CRITERION=   2.525     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   5.181    <br>     FORCE CONVERGENCE VALUE  =  0.9098E-01  CRITERION=   83.17     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.4019E-15  CRITERION=   586.8     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   13.85      CRITERION=   30.63     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   3<br> *** LOAD STEP     2   SUBSTEP    12  COMPLETED.    CUM ITER =     69<br> *** TIME =   5.62483         TIME INC =  0.297509    <br> *** MAX PORE PRESSURE STEP = 0.3283E-02<br> *** AUTO STEP TIME:  NEXT TIME INC = 0.29751      UNCHANGED<br><br>     FORCE CONVERGENCE VALUE  =   97.46      CRITERION=   86.72    <br>     MOMENT CONVERGENCE VALUE =  0.6952E-15  CRITERION=   611.8    <br>     FL FLOW CONVERGENCE VALUE=  0.2336E+05  CRITERION=   33.00    <br>     DISP CONVERGENCE VALUE   =  0.3858      CRITERION=   2.425     <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   6.305    <br>     FORCE CONVERGENCE VALUE  =   4.304      CRITERION=   88.32     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6284E-15  CRITERION=   623.2     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   627.0      CRITERION=   30.59    <br>     DISP CONVERGENCE VALUE   =  0.6861E-01  CRITERION=   2.475     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   3.761    <br>     FORCE CONVERGENCE VALUE  =  0.5457      CRITERION=   90.13     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.5502E-15  CRITERION=   635.9     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   102.3      CRITERION=   31.22    <br>     DISP CONVERGENCE VALUE   =  0.6230E-01  CRITERION=   2.525     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   6.646    <br>     FORCE CONVERGENCE VALUE  =  0.1439      CRITERION=   91.97     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.5651E-15  CRITERION=   648.9     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   107.4      CRITERION=   31.85    <br>     DISP CONVERGENCE VALUE   =  0.7607E-01  CRITERION=   2.577     <<< CONVERGED<br>    EQUIL ITER   4 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   4.688    <br>     FORCE CONVERGENCE VALUE  =  0.9129E-01  CRITERION=   93.84     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.5234E-15  CRITERION=   662.1     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   128.1      CRITERION=   32.50    <br>     DISP CONVERGENCE VALUE   =  0.9759E-01  CRITERION=   2.630     <<< CONVERGED<br>    EQUIL ITER   5 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   3.905    <br>     FORCE CONVERGENCE VALUE  =  0.1036      CRITERION=   95.76     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.5851E-15  CRITERION=   675.6     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   155.4      CRITERION=   33.17    <br>     DISP CONVERGENCE VALUE   =  0.1251      CRITERION=   2.683     <<< CONVERGED<br>    EQUIL ITER   6 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   5.946    <br>     FORCE CONVERGENCE VALUE  =  0.1262      CRITERION=   97.71     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.3994E-15  CRITERION=   689.4     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   190.1      CRITERION=   33.84    <br>     DISP CONVERGENCE VALUE   =  0.1603      CRITERION=   2.738     <<< CONVERGED<br>    EQUIL ITER   7 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   3.675    <br>     FORCE CONVERGENCE VALUE  =  0.1554      CRITERION=   99.71     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.5509E-15  CRITERION=   703.5     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   234.3      CRITERION=   34.53    <br>     DISP CONVERGENCE VALUE   =  0.2055      CRITERION=   2.794     <<< CONVERGED<br>    EQUIL ITER   8 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   6.289    <br>     FORCE CONVERGENCE VALUE  =  0.1925      CRITERION=   101.7     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.3442E-15  CRITERION=   2363.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   290.2      CRITERION=   35.24    <br>    >>> PREDICTED NUMBER OF ITERATIONS FOR CONVERGENCE=  30 EXCEEDS MAX OF  15<br> *** LOAD STEP     2   SUBSTEP    13  NOT COMPLETED.  CUM ITER =     78<br> *** BEGIN BISECTION NUMBER   1    NEW TIME INCREMENT=  0.99500E-01<br><br>     FORCE CONVERGENCE VALUE  =   21.77      CRITERION=   81.10    <br>     MOMENT CONVERGENCE VALUE =  0.5083E-15  CRITERION=   572.2    <br>     FL FLOW CONVERGENCE VALUE=   5148.      CRITERION=   10.17    <br>     DISP CONVERGENCE VALUE   =  0.1001      CRITERION=   2.425     <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   5.594    <br>     FORCE CONVERGENCE VALUE  =  0.9471      CRITERION=   82.71     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.4473E-15  CRITERION=   583.6     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   52.90      CRITERION=   9.302    <br>     DISP CONVERGENCE VALUE   =  0.1839E-01  CRITERION=   2.475     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   4.107    <br>     FORCE CONVERGENCE VALUE  =  0.1159      CRITERION=   84.40     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.3971E-15  CRITERION=   595.5     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   9.614      CRITERION=   9.494    <br>     DISP CONVERGENCE VALUE   =  0.1509E-01  CRITERION=   2.525     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   4.687    <br>     FORCE CONVERGENCE VALUE  =  0.2872E-01  CRITERION=   86.13     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.4126E-15  CRITERION=   607.7     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   8.598      CRITERION=   9.687     <<< CONVERGED<br>    >>> SOLUTION CONVERGED AFTER EQUILIBRIUM ITERATION   3<br> *** LOAD STEP     2   SUBSTEP    13  COMPLETED.    CUM ITER =     80<br> *** TIME =   5.72433         TIME INC =  0.995000E-01<br> *** MAX PORE PRESSURE STEP = 0.1076E-02<br> *** AUTO STEP TIME:  NEXT TIME INC = 0.99500E-01  UNCHANGED<br><br>     FORCE CONVERGENCE VALUE  =   7.751      CRITERION=   83.84    <br>     MOMENT CONVERGENCE VALUE =  0.6206E-15  CRITERION=   591.5    <br>     FL FLOW CONVERGENCE VALUE=   2834.      CRITERION=   9.998    <br>     DISP CONVERGENCE VALUE   =  0.7224E-01  CRITERION=   2.425     <<< CONVERGED<br>    EQUIL ITER   1 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -7.322    <br>     FORCE CONVERGENCE VALUE  =  0.3590      CRITERION=   85.53     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.5841E-15  CRITERION=   603.5     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   35.06      CRITERION=   10.53    <br>     DISP CONVERGENCE VALUE   =  0.4769E-01  CRITERION=   2.475     <<< CONVERGED<br>    EQUIL ITER   2 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -8.339    <br>     FORCE CONVERGENCE VALUE  =  0.5837E-01  CRITERION=   87.27     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.4523E-15  CRITERION=   615.8     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   25.09      CRITERION=   10.75    <br>     DISP CONVERGENCE VALUE   =  0.5387E-01  CRITERION=   2.525     <<< CONVERGED<br>    EQUIL ITER   3 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   6.505    <br>     FORCE CONVERGENCE VALUE  =  0.5371E-01  CRITERION=   89.06     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.4416E-15  CRITERION=   628.3     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   27.54      CRITERION=   10.97    <br>     DISP CONVERGENCE VALUE   =  0.6188E-01  CRITERION=   2.577     <<< CONVERGED<br>    EQUIL ITER   4 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   8.599    <br>     FORCE CONVERGENCE VALUE  =  0.5913E-01  CRITERION=   90.87     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.5724E-15  CRITERION=   641.2     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   30.53      CRITERION=   11.19    <br>     DISP CONVERGENCE VALUE   =  0.7110E-01  CRITERION=   2.630     <<< CONVERGED<br>    EQUIL ITER   5 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   6.093    <br>     FORCE CONVERGENCE VALUE  =  0.6585E-01  CRITERION=   92.73     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.5550E-15  CRITERION=   654.3     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   34.01      CRITERION=   11.42    <br>     DISP CONVERGENCE VALUE   =  0.8170E-01  CRITERION=   2.683     <<< CONVERGED<br>    EQUIL ITER   6 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   8.481    <br>     FORCE CONVERGENCE VALUE  =  0.7367E-01  CRITERION=   94.62     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.3846E-15  CRITERION=   667.6     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   38.05      CRITERION=   11.66    <br>     DISP CONVERGENCE VALUE   =  0.9388E-01  CRITERION=   2.738     <<< CONVERGED<br>    EQUIL ITER   7 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   6.800    <br>     FORCE CONVERGENCE VALUE  =  0.8275E-01  CRITERION=   96.55     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6934E-15  CRITERION=   681.2     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   42.75      CRITERION=   11.89    <br>     DISP CONVERGENCE VALUE   =  0.1079      CRITERION=   2.794     <<< CONVERGED<br>    EQUIL ITER   8 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   6.546    <br>     FORCE CONVERGENCE VALUE  =  0.9326E-01  CRITERION=   98.52     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6029E-15  CRITERION=   2445.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   48.18      CRITERION=   12.14    <br>     DISP CONVERGENCE VALUE   =  0.1240      CRITERION=   2.851     <<< CONVERGED<br>    EQUIL ITER   9 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -7.890    <br>     FORCE CONVERGENCE VALUE  =  0.1054      CRITERION=   100.5     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.7328E-15  CRITERION=   2472.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   54.52      CRITERION=   12.38    <br>     DISP CONVERGENCE VALUE   =  0.1424      CRITERION=   2.909     <<< CONVERGED<br>    EQUIL ITER  10 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   9.012    <br>     FORCE CONVERGENCE VALUE  =  0.1195      CRITERION=   102.6     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6199E-15  CRITERION=   2497.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   61.77      CRITERION=   12.64    <br>     DISP CONVERGENCE VALUE   =  0.1637      CRITERION=   2.968     <<< CONVERGED<br>    EQUIL ITER  11 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   5.415    <br>     FORCE CONVERGENCE VALUE  =  0.1358      CRITERION=   104.7     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.7637E-15  CRITERION=   2522.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   70.28      CRITERION=   12.89    <br>     DISP CONVERGENCE VALUE   =  0.1880      CRITERION=   3.029     <<< CONVERGED<br>    EQUIL ITER  12 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   6.784    <br>     FORCE CONVERGENCE VALUE  =  0.1545      CRITERION=   106.8     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6105E-15  CRITERION=   2547.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   79.94      CRITERION=   13.16    <br>     DISP CONVERGENCE VALUE   =  0.2161      CRITERION=   3.091     <<< CONVERGED<br>    EQUIL ITER  13 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -6.282    <br>     FORCE CONVERGENCE VALUE  =  0.1762      CRITERION=   109.0     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.7224E-15  CRITERION=   2571.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   91.38      CRITERION=   13.43    <br>     DISP CONVERGENCE VALUE   =  0.2483      CRITERION=   3.154     <<< CONVERGED<br>    EQUIL ITER  14 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=  -4.604    <br>     FORCE CONVERGENCE VALUE  =  0.2012      CRITERION=   111.2     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6804E-15  CRITERION=   2595.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   104.2      CRITERION=   13.70    <br>     DISP CONVERGENCE VALUE   =  0.2853      CRITERION=   3.218     <<< CONVERGED<br>    EQUIL ITER  15 COMPLETED.  NEW TRIANG MATRIX.  MAX DOF INC=   7.095    <br>     FORCE CONVERGENCE VALUE  =  0.2300      CRITERION=   113.5     <<< CONVERGED<br>     MOMENT CONVERGENCE VALUE =  0.6416E-15  CRITERION=   2618.     <<< CONVERGED<br>     FL FLOW CONVERGENCE VALUE=   119.6      CRITERION=   13.98    <br><br> *** ERROR ***                           CP =     131.781   TIME= 14:10:58<br> Solution not converged at time 5.82383467 (load step 2 substep 14).     <br>  Run terminated.                                                        <br><br> *** WARNING ***                         CP =     131.781   TIME= 14:10:58<br> The unconverged solution (identified as time 20 substep 999999) is      <br> output for analysis debug purposes.  Results should not be used for     <br> any other purpose.                                                      <br><br><br><br><br>         R E S T A R T   I N F O R M A T I O N<br><br> REASON FOR TERMINATION. . . . . . . . . .UNCONVERGED SOLUTION                    <br> FILES NEEDED FOR RESTARTING . . . . . . .  file0.osav<br>                                            file0.emat<br>                                            file.db<br> TIME OF LAST SOLUTION . . . . . . . . . .  5.7243    <br>    TIME AT START OF THE LOAD STEP . . . . 0.10000    <br>    TIME AT END OF THE LOAD STEP . . . . .  20.000    <br> NOTE: FOR CONVERGING SOLUTIONS, ADDITIONAL EQUILIBRIUM ITERATIONS MAY BE<br>       ADDED IN THE RESTART (NEQIT COMMAND) USING THE RESTART FILE file0.esav                                                                                                                                                                                                                                                          <br><br> ALL CURRENT ANSYS DATA WRITTEN TO FILE NAME= file.db<br>  FOR POSSIBLE RESUME FROM THIS POINT<br><br><br><br><br><br> NUMBER OF WARNING MESSAGES ENCOUNTERED=          7<br> NUMBER OF ERROR   MESSAGES ENCOUNTERED=          5<br><br><br><br> ***** PROBLEM TERMINATED BY INDICATED ERROR(S) OR BY END OF INPUT DATA *****<br><br>+——— D I S T R I B U T E D   A N S Y S   S T A T I S T I C S ————+<br><br>Release: 2022 R1            Build: 22.1       Update: UP20211129   Platform: WINDOWS x64 <br>Date Run: 09\/05\/2024   Time: 14:10     Process ID: 15340<br>Operating System: Windows 10  (Build: 19044)<br><br>Processor Model: 12th Gen Intel(R) Core(TM) i7-12700<br><br>Compiler: Intel(R) Fortran Compiler Version 19.0.5  (Build: 20190815)<br>          Intel(R) C\/C++ Compiler Version 19.0.5  (Build: 20190815)<br>          Intel(R) Math Kernel Library Version 2020.0.0 Product Build 20191125<br>          BLAS Library supplied by Intel(R) MKL<br><br>Number of machines requested            :    1<br>Total number of cores available         :   20<br>Number of physical cores available      :   12<br>Number of processes requested           :   10<br>Number of threads per process requested :    1<br>Total number of cores requested         :   10 (Distributed Memory Parallel)               <br>MPI Type: INTELMPI<br>MPI Version: Intel(R) MPI Library 2019 Update 10 for Windows* OS<br><br><br>GPU Acceleration: Not Requested<br><br>Job Name: file0<br>Input File: dummy.dat<br><br>  Core                Machine Name   Working Directory<br> —————————————————–<br>     0             E-10VXXC3177879   C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7<br>     1             E-10VXXC3177879   C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7<br>     2             E-10VXXC3177879   C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7<br>     3             E-10VXXC3177879   C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7<br>     4             E-10VXXC3177879   C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7<br>     5             E-10VXXC3177879   C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7<br>     6             E-10VXXC3177879   C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7<br>     7             E-10VXXC3177879   C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7<br>     8             E-10VXXC3177879   C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7<br>     9             E-10VXXC3177879   C:\\Users\\mbgm4fs3\\OneDrive – The University of Manchester\\PhD\\Experimental\\Data\\2. Modelling\\workbench 2022 R1\\_ProjectScratch\\ScrE7A7<br> <br>Latency time from master to core     1 =    1.974 microseconds<br>Latency time from master to core     2 =    1.910 microseconds<br>Latency time from master to core     3 =    1.881 microseconds<br>Latency time from master to core     4 =    1.907 microseconds<br>Latency time from master to core     5 =    1.876 microseconds<br>Latency time from master to core     6 =    1.896 microseconds<br>Latency time from master to core     7 =    1.889 microseconds<br>Latency time from master to core     8 =    2.418 microseconds<br>Latency time from master to core     9 =    2.417 microseconds<br> <br>Communication speed from master to core     1 = 12783.43 MB\/sec<br>Communication speed from master to core     2 = 13977.95 MB\/sec<br>Communication speed from master to core     3 = 14281.63 MB\/sec<br>Communication speed from master to core     4 = 14028.20 MB\/sec<br>Communication speed from master to core     5 = 13763.91 MB\/sec<br>Communication speed from master to core     6 = 13771.50 MB\/sec<br>Communication speed from master to core     7 = 14067.67 MB\/sec<br>Communication speed from master to core     8 =  9001.31 MB\/sec<br>Communication speed from master to core     9 = 11021.56 MB\/sec<br><br>Total CPU time for main thread                    :      130.1 seconds<br>Total CPU time summed for all threads             :      132.4 seconds<br><br>Elapsed time spent obtaining a license            :        0.4 seconds<br>Elapsed time spent pre-processing model (\/PREP7)  :        0.1 seconds<br>Elapsed time spent solution – preprocessing       :        0.2 seconds<br>Elapsed time spent computing solution             :      130.0 seconds<br>Elapsed time spent solution – postprocessing      :        0.3 seconds<br>Elapsed time spent post-processing model (\/POST1) :        0.0 seconds<br> <br>Equation solver used                              :            Sparse (symmetric)<br>Equation solver computational rate                :       81.3 Gflops<br>Equation solver effective I\/O rate                :       21.1 GB\/sec<br><br>Sum of memory used on all processes               :     1570.0 MB<br>Sum of memory allocated on all processes          :    11328.0 MB<br>Physical memory available                         :         32 GB<br><br>Total amount of I\/O written to disk               :       33.1 GB<br>Total amount of I\/O read from disk                :       37.3 GB<br><br>+—— E N D   D I S T R I B U T E D   A N S Y S   S T A T I S T I C S ——-+<br><br><br> *—————————————————————————*<br> |                                                                           |<br> |                       DISTRIBUTED ANSYS RUN COMPLETED                     |<br> |                                                                           |<br> |—————————————————————————|<br> |                                                                           |<br> | Ansys 2022 R1               Build 22.1         UP20211129     WINDOWS x64 |<br> |                                                                           |<br> |—————————————————————————|<br> |                                                                           |<br> | Database Requested(-db)  1024 MB    Scratch Memory Requested      1024 MB |<br> | Maximum Database Used      17 MB    Maximum Scratch Memory Used    174 MB |<br> |                                                                           |<br> |—————————————————————————|<br> |                                                                           |<br> |        CP Time      (sec) =        132.422       Time  =  14:10:59        |<br> |        Elapsed Time (sec) =        133.000       Date  =  09\/05\/2024      |<br> |                                                                           |<br> *—————————————————————————*<\/p><\/div><center><object id=”Graph1″ style=”height: 548px; 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