Solver Output

Ansys Mechanical Enterprise Academic Research

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|   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     |
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***************************************************************
*         ANSYS MAPDL 2023 R1          LEGAL NOTICES          *
***************************************************************
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* Copyright 1971-2023 Ansys, Inc. All rights reserved.       *
* Unauthorized use, distribution or duplication is            *
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2023 R1

Point Releases and Patches installed:

ANSYS, Inc. License Manager 2023 R1
Discovery 2023 R1
Ansys Sherlock 2023 R1
SpaceClaim 2023 R1
Autodyn 2023 R1
LS-DYNA 2023 R1
CFD-Post only 2023 R1
CFX (includes CFD-Post) 2023 R1
Chemkin 2023 R1
EnSight 2023 R1
FENSAP-ICE 2023 R1
Fluent (includes CFD-Post) 2023 R1
Polyflow (includes CFD-Post) 2023 R1
Forte (includes EnSight) 2023 R1
TurboGrid 2023 R1
Motion 2023 R1
Aqwa 2023 R1
optiSLang 2023 R1
Additive 2023 R1
Customization Files for User Programmable Features 2023 R1
Mechanical Products 2023 R1
Material Calibration App 2023 R1
Icepak (includes CFD-Post) 2023 R1
Remote Solve Manager Standalone Services 2023 R1
Ansys Sound - SAS 2023 R1
Viewer 2023 R1
ACIS Geometry Interface 2023 R1
AutoCAD Geometry Interface 2023 R1
Catia, Version 4 Geometry Interface 2023 R1
Catia, Version 5 Geometry Interface 2023 R1
Catia, Version 6 Geometry Interface 2023 R1
Creo Elements/Direct Modeling Geometry Interface 2023 R1
Creo Parametric Geometry Interface 2023 R1
Inventor Geometry Interface 2023 R1
JTOpen Geometry Interface 2023 R1
NX Geometry Interface 2023 R1
Parasolid Geometry Interface 2023 R1
Solid Edge Geometry Interface 2023 R1
SOLIDWORKS Geometry Interface 2023 R1

          ***** MAPDL COMMAND LINE ARGUMENTS *****
BATCH MODE REQUESTED (-b)    = NOLIST
INPUT FILE COPY MODE (-c)    = COPY
SHARED MEMORY PARALLEL REQUESTED
    SINGLE PROCESS WITH 24 THREADS REQUESTED
    TOTAL OF    24 CORES REQUESTED
INPUT FILE NAME              = D:\Ansys Rishi\Ansys Simulations\5\_ProjectScratch\ScrD250\dummy.dat
OUTPUT FILE NAME             = D:\Ansys Rishi\Ansys Simulations\5\_ProjectScratch\ScrD250\solve.out
START-UP FILE MODE           = NOREAD
STOP FILE MODE               = NOREAD

RELEASE= 2023 R1              BUILD= 23.1      UP20221128   VERSION=WINDOWS x64
CURRENT JOBNAME=file 13:22:18 JUL 19, 2024 CP=      0.125

PARAMETER _DS_PROGRESS =     999.0000000

/INPUT FILE= ds.dat LINE=       0

DO NOT WRITE ELEMENT RESULTS INTO DATABASE

*GET _WALLSTRT FROM ACTI ITEM=TIME WALL VALUE= 13.3716667

TITLE=
5--Transient Thermal (C5)

ACT Extensions:
      LSDYNA, 2023.1
      5f463412-bd3e-484b-87e7-cbc0a665e474, wbex
/COM,     AdditiveWizard, 2023.1
      d670da30-b684-4a76-8cae-363c855c1121, wbex
/COM,     ANSYSMotion, 2023.1
      20180725-3f81-49eb-9f31-41364844c769, wbex

SET PARAMETER DIMENSIONS ON _WB_PROJECTSCRATCH_DIR
TYPE=STRI DIMENSIONS=      248        1        1

PARAMETER _WB_PROJECTSCRATCH_DIR(1) = D:\Ansys Rishi\Ansys Simulations\5\_ProjectScratch\ScrD250\

SET PARAMETER DIMENSIONS ON _WB_SOLVERFILES_DIR
TYPE=STRI DIMENSIONS=      248        1        1

PARAMETER _WB_SOLVERFILES_DIR(1) = D:\Ansys Rishi\Ansys Simulations\5\5_files\dp0\SYS-2\MECH\

SET PARAMETER DIMENSIONS ON _WB_USERFILES_DIR
TYPE=STRI DIMENSIONS=      248        1        1

PARAMETER _WB_USERFILES_DIR(1) = D:\Ansys Rishi\Ansys Simulations\5\5_files\user_files\
--- Data in consistent NMM units. See Solving Units in the help system for more

MPA UNITS SPECIFIED FOR INTERNAL
LENGTH      = MILLIMETERS (mm)
MASS        = TONNE (Mg)
TIME        = SECONDS (sec)
TEMPERATURE = CELSIUS (C)
TOFFSET     = 273.0
FORCE       = NEWTON (N)
HEAT        = MILLIJOULES (mJ)

INPUT UNITS ARE ALSO SET TO MPA

*** MAPDL - ENGINEERING ANALYSIS SYSTEM RELEASE 2023 R1          23.1     ***
Ansys Mechanical Enterprise Academic Research
00214406 VERSION=WINDOWS x64   13:22:18 JUL 19, 2024 CP=      0.234

5--Transient Thermal (C5)

          ***** MAPDL ANALYSIS DEFINITION (PREP7) *****
*********** Nodes for the whole assembly ***********
*********** Elements for Body 1 "Q10_Build_Table_(Rounded corners)" ***********
*********** Elements for Body 2 "Q10_tungsten_Disk" ***********
*********** Elements for Body 3 "powder layer" ***********
*********** Elements for Body 4 "Q10_powder_spread-1" ***********
*********** Elements for Body 5 "Q10_complete heat shield" ***********
*********** Send User Defined Coordinate System(s) ***********
*********** Send Materials ***********

*** WARNING ***                         CP =       6.922   TIME= 13:22:19
The temperature-dependent secant coefficient of thermal expansion for
material 1 includes a temperature point of reference temperature (with
a tolerance of 1 degree). This data is ignored for the MPAMOD command
operation to avoid a numerical singularity.

*** WARNING ***                         CP =       6.922   TIME= 13:22:19
The temperature-dependent secant coefficient of thermal expansion for
material 5 includes a temperature point of reference temperature (with
a tolerance of 1 degree). This data is ignored for the MPAMOD command
operation to avoid a numerical singularity.
*********** Create Contact "Contact Region" ***********
             Real Constant Set For Above Contact Is 7 & 6
*********** Create Contact "Contact Region 3" ***********
             Real Constant Set For Above Contact Is 9 & 8
*********** Create Contact "Contact Region 4" ***********
             Real Constant Set For Above Contact Is 11 & 10
*********** Create Contact "Contact Region 5" ***********
             Real Constant Set For Above Contact Is 13 & 12
*********** Define Temperature Constraint ***********
*********** Define Temperature Constraint ***********
*********** Define Temperature Constraint ***********
*********** Create "Heat Flux" ***********
*********** Create "ToSurface(Closed)" Radiation ***********
*********** Create "ToSurface(Closed)" Radiation ***********
***************** Define Uniform Initial temperature ***************

***** ROUTINE COMPLETED ***** CP =         8.422

--- Number of total nodes = 104159
--- Number of contact elements = 3805
--- Number of spring elements = 0
--- Number of bearing elements = 0
--- Number of solid elements = 49733
--- Number of condensed parts = 0
--- Number of total elements = 53538

*GET _WALLBSOL FROM ACTI ITEM=TIME WALL VALUE= 13.3719444
****************************************************************************
*************************    SOLUTION       ********************************
****************************************************************************

***** MAPDL SOLUTION ROUTINE *****

PERFORM A TRANSIENT ANALYSIS
THIS WILL BE A NEW ANALYSIS

STEP BOUNDARY CONDITION KEY= 1

CONTACT INFORMATION PRINTOUT LEVEL       1

DO NOT SAVE ANY RESTART FILES AT ALL

Use Full Nonlinear Thermal Transient Solution

NLHIST: ADDED NODAL RESULTS HISTORY FOR:
       NAME = MAX_TEMP
ITEM/COMP = TEMPMAX
       NODE =         0

NLHIST: ADDED NODAL RESULTS HISTORY FOR:
       NAME = MIN_TEMP
ITEM/COMP = TEMPMIN
       NODE =         0
********* Initial Time Increment Check And Fourier Modulus *********
Specified Initial Time Increment: 0.1
Estimated Increment Needed, le*le/alpha, Body 1: 7.4608
Estimated Increment Needed, le*le/alpha, Body 2: 0.543679
Estimated Increment Needed, le*le/alpha, Body 3: 0.0288621
Estimated Increment Needed, le*le/alpha, Body 4: 2.24448
Estimated Increment Needed, le*le/alpha, Body 5: 0.98259
****************************************************
******************* SOLVE FOR LS 1 OF 1 ****************

SPECIFIED CONSTRAINT TEMP FOR PICKED NODES
REAL= 1400.00000       IMAG= 0.00000000

SPECIFIED CONSTRAINT TEMP FOR PICKED NODES
REAL= 300.000000       IMAG= 0.00000000

SPECIFIED CONSTRAINT TEMP FOR PICKED NODES
REAL= 300.000000       IMAG= 0.00000000

SELECT       FOR ITEM=TYPE COMPONENT=
IN RANGE        14 TO         14 STEP          1

         53 ELEMENTS (OF      53538 DEFINED) SELECTED BY ESEL COMMAND.

SELECT      ALL NODES HAVING ANY ELEMENT IN ELEMENT SET.

        182 NODES (OF     104159 DEFINED) SELECTED FROM
       53 SELECTED ELEMENTS BY NSLE COMMAND.

GENERATE SURFACE LOAD HFLU ON SURFACE DEFINED BY ALL SELECTED NODES
ACCORDING TO TABLE PARAMETER = _LOADVARI75

NUMBER OF HFLU ELEMENT FACE LOADS STORED =         53

ALL SELECT   FOR ITEM=NODE COMPONENT=
IN RANGE         1 TO     104159 STEP          1

     104159 NODES (OF     104159 DEFINED) SELECTED BY NSEL COMMAND.

ALL SELECT   FOR ITEM=ELEM COMPONENT=
IN RANGE         1 TO      86886 STEP          1

      53538 ELEMENTS (OF      53538 DEFINED) SELECTED BY ESEL COMMAND.

SPECIFIED SURFACE LOAD RDSF FOR ALL PICKED ELEMENTS LKEY = 6   KVAL = 1
ACCORDING TO TABLE PARAMETER = _RADVARI65

SPECIFIED SURFACE LOAD RDSF FOR ALL PICKED ELEMENTS LKEY = 6   KVAL = 2
     VALUES =     1.0000         1.0000         1.0000         1.0000

ALL SELECT   FOR ITEM=NODE COMPONENT=
IN RANGE         1 TO     104159 STEP          1

     104159 NODES (OF     104159 DEFINED) SELECTED BY NSEL COMMAND.

ALL SELECT   FOR ITEM=ELEM COMPONENT=
IN RANGE         1 TO      86886 STEP          1

      53538 ELEMENTS (OF      53538 DEFINED) SELECTED BY ESEL COMMAND.

ENCLOSURE= 1 VIEWFACTOR SCALE METHOD = 1
               ITERATIONS = 100
               TOLERANCE = 1.000000047E-03

SPECIFIED SURFACE LOAD RDSF FOR ALL PICKED ELEMENTS LKEY = 1   KVAL = 1
ACCORDING TO TABLE PARAMETER = _RADVARI79

SPECIFIED SURFACE LOAD RDSF FOR ALL PICKED ELEMENTS LKEY = 1   KVAL = 2
     VALUES =     1.0000         1.0000         1.0000         1.0000

SPECIFIED SURFACE LOAD RDSF FOR ALL PICKED ELEMENTS LKEY = 2   KVAL = 1
ACCORDING TO TABLE PARAMETER = _RADVARI79

SPECIFIED SURFACE LOAD RDSF FOR ALL PICKED ELEMENTS LKEY = 2   KVAL = 2
     VALUES =     1.0000         1.0000         1.0000         1.0000

SPECIFIED SURFACE LOAD RDSF FOR ALL PICKED ELEMENTS LKEY = 3   KVAL = 1
ACCORDING TO TABLE PARAMETER = _RADVARI79

SPECIFIED SURFACE LOAD RDSF FOR ALL PICKED ELEMENTS LKEY = 3   KVAL = 2
     VALUES =     1.0000         1.0000         1.0000         1.0000

SPECIFIED SURFACE LOAD RDSF FOR ALL PICKED ELEMENTS LKEY = 4   KVAL = 1
ACCORDING TO TABLE PARAMETER = _RADVARI79

SPECIFIED SURFACE LOAD RDSF FOR ALL PICKED ELEMENTS LKEY = 4   KVAL = 2
     VALUES =     1.0000         1.0000         1.0000         1.0000

ALL SELECT   FOR ITEM=NODE COMPONENT=
IN RANGE         1 TO     104159 STEP          1

     104159 NODES (OF     104159 DEFINED) SELECTED BY NSEL COMMAND.

ALL SELECT   FOR ITEM=ELEM COMPONENT=
IN RANGE         1 TO      86886 STEP          1

      53538 ELEMENTS (OF      53538 DEFINED) SELECTED BY ESEL COMMAND.

ALL SELECT   FOR ITEM=NODE COMPONENT=
IN RANGE         1 TO     104159 STEP          1

     104159 NODES (OF     104159 DEFINED) SELECTED BY NSEL COMMAND.

ALL SELECT   FOR ITEM=ELEM COMPONENT=
IN RANGE         1 TO      86886 STEP          1

      53538 ELEMENTS (OF      53538 DEFINED) SELECTED BY ESEL COMMAND.

PRINTOUT RESUMED BY /GOP

DO NOT USE AUTOMATIC TIME STEPPING THIS LOAD STEP

USE INITIAL TIME STEP SIZE OF 0.1000000     FOR ALL DEGREES OF FREEDOM
FOR AUTOMATIC TIME STEPPING:
   USE 0.1000000     AS THE MINIMUM TIME STEP SIZE
   USE 0.1000000     AS THE MAXIMUM TIME STEP SIZE

TIME= 200.00

INCLUDE TRANSIENT EFFECTS FOR ALL DEGREES OF FREEDOM THIS LOAD STEP

ERASE THE CURRENT DATABASE OUTPUT CONTROL TABLE.

WRITE ALL ITEMS TO THE DATABASE WITH A FREQUENCY OF NONE
   FOR ALL APPLICABLE ENTITIES

WRITE NSOL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL
   FOR ALL APPLICABLE ENTITIES

WRITE RSOL ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL
   FOR ALL APPLICABLE ENTITIES

WRITE EANG ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL
   FOR ALL APPLICABLE ENTITIES

WRITE VENG ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL
   FOR ALL APPLICABLE ENTITIES

WRITE FFLU ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL
   FOR ALL APPLICABLE ENTITIES

WRITE CONT ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL
   FOR ALL APPLICABLE ENTITIES

WRITE MISC ITEMS TO THE DATABASE WITH A FREQUENCY OF ALL
   FOR ALL APPLICABLE ENTITIES

CONVERGENCE ON HEAT BASED ON THE NORM OF THE N-R LOAD
   WITH A TOLERANCE OF 0.1000E-03 AND A MINIMUM REFERENCE VALUE OF 0.1000E-02
   USING THE L2 NORM (CHECK THE SRSS VALUE)

UNDER RELAXATION FOR RADIATION FLUX=   0.10000

TOLERENCE FOR RADIOSITY FLUX=   0.00010

USING JACOBI ITERATIVE SOLVER FOR RADIOSITY SOLUTION
FOR 3D ENCLOSURES.
USING GSEIDEL ITERATIVE SOLVER FOR RADIOSITY SOLUTION
FOR 2D ENCLOSURES.

MAXIMUM NUMBER OF ITERATIONS= 1000
TOLERENCE FOR ITERATIVE SOLVER=   0.00010
RELAXATION FOR ITERATIVE SOLVER=   0.10000

HEMICUBE RESOLUTION=   10

MIN NORMALIZED DIST BEFORE AUTO SUBDIVIDE= 1.000000000E-09

SELECT      COMPONENT _CM65

SELECT      ALL ELEMENTS HAVING ANY NODE IN NODAL SET.

       1018 ELEMENTS (OF      53538 DEFINED) SELECTED FROM
     1919 SELECTED NODES BY ESLN COMMAND.

BEFORE SYMMETRIZATION:

NUMBER OF RADIATION NODES CREATED =        670

NUMBER OF RADIOSITY SURFACE ELEMENTS CREATED =        581

AFTER SYMMETRIZATION:

FULL NUMBER OF RADIATION NODES CREATED =        670

FULL NUMBER OF RADIOSITY SURFACE ELEMENTS CREATED =       581

ALL SELECT   FOR ITEM=NODE COMPONENT=
IN RANGE         1 TO     104829 STEP          1

     104829 NODES (OF     104829 DEFINED) SELECTED BY NSEL COMMAND.

ALL SELECT   FOR ITEM=ELEM COMPONENT=
IN RANGE         1 TO      87467 STEP          1

      54119 ELEMENTS (OF      54119 DEFINED) SELECTED BY ESEL COMMAND.

SELECT      COMPONENT _CM79

SELECT      ALL ELEMENTS HAVING ANY NODE IN NODAL SET.

      46561 ELEMENTS (OF      54119 DEFINED) SELECTED FROM
    28462 SELECTED NODES BY ESLN COMMAND.

BEFORE SYMMETRIZATION:

NUMBER OF RADIATION NODES CREATED =       7225

NUMBER OF RADIOSITY SURFACE ELEMENTS CREATED =      14013

AFTER SYMMETRIZATION:

FULL NUMBER OF RADIATION NODES CREATED =       7225

FULL NUMBER OF RADIOSITY SURFACE ELEMENTS CREATED =     14013

ALL SELECT   FOR ITEM=NODE COMPONENT=
IN RANGE         1 TO     112054 STEP          1

     112054 NODES (OF     112054 DEFINED) SELECTED BY NSEL COMMAND.

ALL SELECT   FOR ITEM=ELEM COMPONENT=
IN RANGE         1 TO     101480 STEP          1

      68132 ELEMENTS (OF      68132 DEFINED) SELECTED BY ESEL COMMAND.

*GET ANSINTER_ FROM ACTI ITEM=INT        VALUE= 0.00000000

*IF ANSINTER_                         ( =   0.00000     ) NE
      0                                 ( =   0.00000     ) THEN

*ENDIF

***** MAPDL SOLVE    COMMAND *****

CALCULATING VIEW FACTORS USING HEMICUBE METHOD

RETRIEVED    1 ENCLOSURES.
TOTAL OF    14594 DEFINED ELEMENT FACES.

# ENCLOSURE =     1 # SURFACES = 14594 # NODES = 7895

   ******************************************************************************
                V I E W F A C T O R    S M O O T H I N G
   ******************************************************************************

    Smoothing of viewfactor matrix...
      Max iterations = 100
      Tolerance      = 0.001
      Some of the rows in the viewfactor matrix have all zeros
      row sum total should be                   = 14590.0000
      row sum total before forcing symmetry     = 14587.0815
      row sum total after forcing symmetry      = 14587.0815
      row sum total after smoothing             = 14590.0002
      Raw rowsum error min                      = -7.3418e-01
      Raw rowsum error max                      = 2.3842e-07
      Raw rowsum error mean                     = -1.9998e-04 +/- 9.3284e-03
      Symmetric rowsum error min                = -7.3418e-01
      Symmetric rowsum error max                = 2.3842e-07
      Symmetric rowsum error mean               = -1.9998e-04 +/- 5.7435e-08
      Smoothed rowsum error min                 = -1.7881e-07
      Smoothed rowsum error max                 = 3.5763e-07
      Smoothed rowsum error mean                = 1.4719e-08 +/- 5.1301e-11
      number of iterations to smooth            = 1

   ******************************************************************************
        E N D    O F    V I E W F A C T O R    S M O O T H I N G
   ******************************************************************************

TIME OF CALCULATION FOR THIS ENCLOSURE =    74.1875

CHECKING VIEW FACTOR SUM

*** NOTE ***                            CP =     110.109   TIME= 13:23:42
Some of the rows in the viewfactor matrix have all zeros for enclosure
1.

*** ERROR ***                           CP =     110.172   TIME= 13:23:42
No Space Temperature or Space Node specified for open Enclosure 1.

ERROR IN VIEW FACTOR CALCULATION

*** WARNING ***                         CP =     110.172   TIME= 13:23:42
Some radiation enclosures have viewfactor scaling. Use VFSM,STAT
command to check the status. Also note that scaling is ignored if the
viewfactor sum is <= 0.0.

NUMBER OF WARNING MESSAGES ENCOUNTERED=          3
NUMBER OF ERROR   MESSAGES ENCOUNTERED=          1

***** PROBLEM TERMINATED BY INDICATED ERROR(S) OR BY END OF INPUT DATA *****

+--------------------- M A P D L   S T A T I S T I C S ------------------------+

Release: 2023 R1            Build: 23.1       Update: UP20221128   Platform: WINDOWS x64
Date Run: 07/19/2024   Time: 13:23     Process ID: 19840
Operating System: Windows Server 2019 (Build: 17763)

Processor Model: Intel(R) Xeon(R) CPU E5-2660 v4 @ 2.00GHz

Compiler: Intel(R) Fortran Compiler Version 19.0.5 (Build: 20190815)
          Intel(R) C/C++ Compiler Version 19.0.5 (Build: 20190815)
          Intel(R) Math Kernel Library Version 2020.0.0 Product Build 20191125
          BLAS Library supplied by Intel(R) MKL

Number of machines requested            :    1
Total number of cores available         :   56
Number of physical cores available      :   28
Number of processes requested           :    1
Number of threads per process requested :   24
Total number of cores requested         :   24 (Shared Memory Parallel)

GPU Acceleration: Not Requested

Job Name: file
Input File: dummy.dat
Working Directory: D:\Ansys Rishi\Ansys Simulations\5\_ProjectScratch\ScrD250

Total CPU time for main thread                    :       84.1 seconds
Total CPU time summed for all threads             :      113.5 seconds

Elapsed time spent obtaining a license            :        0.9 seconds
Elapsed time spent pre-processing model (/PREP7) :        0.6 seconds
Elapsed time spent solution - preprocessing       :        0.0 seconds
Elapsed time spent computing solution             :        0.0 seconds
Elapsed time spent solution - postprocessing      :        0.0 seconds
Elapsed time spent post-processing model (/POST1) :        0.0 seconds

Sum of memory used on all processes               :      162.0 MB
Sum of memory allocated on all processes          :     2112.0 MB
Physical memory available                         :         64 GB

Total amount of I/O written to disk               :        0.0 GB
Total amount of I/O read from disk                :        0.0 GB

+------------------ E N D   M A P D L   S T A T I S T I C S -------------------+

*-----------------------------------------------------------------------------*
|                                                                             |
|                               RUN COMPLETED                                 |
|                                                                             |
|-----------------------------------------------------------------------------|
|                                                                             |
| Ansys MAPDL 2023 R1         Build 23.1         UP20221128    WINDOWS x64   |
|                                                                             |
|-----------------------------------------------------------------------------|
|                                                                             |
| Database Requested(-db) 1024 MB     Scratch Memory Requested      1024 MB |
| Maximum Database Used      79 MB     Maximum Scratch Memory Used     83 MB |
|                                                                             |
|-----------------------------------------------------------------------------|
|                                                                             |
|        CP Time      (sec) =        113.453       Time = 13:23:42          |
|        Elapsed Time (sec) =         86.000       Date = 07/19/2024        |
|                                                                             |
*-----------------------------------------------------------------------------*

Solver Output

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