An den rot markierten Zeilen sehe ich, dass ich das nachfolgende brauche und die blauen sind die, die ich brauche. Grün markiert sind die Überschriften der jeweiligen Werkstoffwerte.
Abaqus 2020 Date 08-Dec-2020 Time 11:35:52
For use by FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG EV under license from Dassault Systemes or its subsidiary.
The Abaqus Software is a product of:
Dassault Systemes SIMULIA Corp.
1301 Atwood Avenue, Suite 101W
Johnston, RI 02919, USA
The Abaqus Software is available only under license
from Dassault Systemes or its subsidiary and may be
used or reproduced only in accordance with the terms
of such license.
On machine node052
you are authorized to run
Abaqus/Standard until 31-Dec-2020
Your site id is: 200000000003598
For assistance or any other information you may
obtain contact information for your local office
from the world wide web at:
http://www.3ds.com/products/simulia/locations/
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* *
* ***************** *
* * N O T I C E * *
* ***************** *
* *
* *
* Abaqus 2020 *
* *
* BUILD ID: 2019_09_13-19.49.31 163176 *
* *
* *
* Please make sure you are using *
* release Abaqus 2020 manuals *
* plus the notes accompanying this release. *
* *
* *
* *
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
PROCESSING PART, INSTANCE, AND ASSEMBLY INFORMATION
*******************************************************
END PROCESSING PART, INSTANCE, AND ASSEMBLY INFORMATION
***********************************************************
*CONTOUR INTEGRAL, CONTOURS=10, TYPE=J, OUTPUT=BOTH, SYMM
*CONTOUR INTEGRAL, CONTOURS=10, TYPE=K FACTORS, OUTPUT=BOTH, SYMM
*CONTOUR INTEGRAL, CONTOURS=10, TYPE=T-STRESS, OUTPUT=BOTH, SYMM
OPTIONS BEING PROCESSED
***************************
*HEADING
ABAQUS job created on 10-Nov-20 at 17:13:01
*NODE
*ELEMENT, TYPE=CPE8, ELSET=PR2D
*NSET, NSET=XJ01, GENERATE
*ELSET, ELSET=ZUG, GENERATE
*ELSET, ELSET=ZUG_1, GENERATE
*ELSET, ELSET=RUB
*MATERIAL, NAME=EL200
*ELASTIC, TYPE=ISO
*SOLID SECTION, ELSET=PR2D, MATERIAL=EL200
*SOLID SECTION, ELSET=PR2D, MATERIAL=EL200
*BOUNDARY, OP=NEW
*BOUNDARY, OP=NEW
*BOUNDARY, OP=NEW
*BOUNDARY, OP=NEW
*OUTPUT, FIELD
*ELEMENT OUTPUT
*OUTPUT, FIELD
*ELEMENT OUTPUT
*OUTPUT, FIELD
*ELEMENT OUTPUT
*STEP, INC=5000
*OUTPUT, FIELD
*STEP, INC=5000
*STEP, INC=5000
*STATIC, DIRECT
*DLOAD, OP=NEW
*OUTPUT, FIELD
*NODE OUTPUT
*ELEMENT OUTPUT
*END STEP
*BOUNDARY, OP=NEW
*BOUNDARY, OP=NEW
*STEP, INC=5000
*STATIC, DIRECT
*CONTOUR INTEGRAL, CONTOURS=10, TYPE=J, OUTPUT=BOTH, SYMM
*CONTOUR INTEGRAL, CONTOURS=10, TYPE=K FACTORS, OUTPUT=BOTH, SYMM
*CONTOUR INTEGRAL, CONTOURS=10, TYPE=T-STRESS, OUTPUT=BOTH, SYMM
*END STEP
P R O B L E M S I Z E
NUMBER OF ELEMENTS IS 564
NUMBER OF NODES IS 1801
NUMBER OF NODES DEFINED BY THE USER 1801
TOTAL NUMBER OF VARIABLES IN THE MODEL 3602
(DEGREES OF FREEDOM PLUS MAX NO. OF ANY LAGRANGE MULTIPLIER
VARIABLES. INCLUDE *PRINT,SOLVE=YES TO GET THE ACTUAL NUMBER.)
END OF USER INPUT PROCESSING
JOB TIME SUMMARY
USER TIME (SEC) = 0.19000
SYSTEM TIME (SEC) = 3.00000E-02
TOTAL CPU TIME (SEC) = 0.22000
WALLCLOCK TIME (SEC) = 0
1
Abaqus 2020 Date 08-Dec-2020 Time 11:35:53
For use by FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG EV under license from Dassault Systemes or its subsidiary.
ABAQUS job created on 10-Nov-20 at 17:13:01 STEP 1 INCREMENT 1
TIME COMPLETED IN THIS STEP 0.00
S T E P 1 S T A T I C A N A L Y S I S
FIXED TIME INCREMENTS
TIME INCREMENT IS 1.00
TIME PERIOD IS 1.00
LINEAR EQUATION SOLVER TYPE DIRECT SPARSE
M E M O R Y E S T I M A T E
PROCESS FLOATING PT MINIMUM MEMORY MEMORY TO
OPERATIONS REQUIRED MINIMIZE I/O
PER ITERATION (MB) (MB)
1 1.74E+07 22 33
NOTE:
(1) SINCE ABAQUS DOES NOT PRE-ALLOCATE MEMORY AND ONLY ALLOCATES MEMORY AS NEEDED DURING THE ANALYSIS,
THE MEMORY REQUIREMENT PRINTED HERE CAN ONLY BE VIEWED AS A GENERAL GUIDELINE BASED ON THE BEST
KNOWLEDGE AVAILABLE AT THE BEGINNING OF A STEP BEFORE THE SOLUTION PROCESS HAS BEGUN.
(2) THE ESTIMATE IS NORMALLY UPDATED AT THE BEGINNING OF EVERY STEP. IT IS THE MAXIMUM VALUE OF THE
ESTIMATE FROM THE CURRENT STEP TO THE LAST STEP OF THE ANALYSIS, WITH UNSYMMETRIC SOLUTION TAKEN
INTO ACCOUNT IF APPLICABLE.
(3) SINCE THE ESTIMATE IS BASED ON THE ACTIVE DEGREES OF FREEDOM IN THE FIRST ITERATION OF THE
CURRENT STEP, THE MEMORY ESTIMATE MIGHT BE SIGNIFICANTLY DIFFERENT THAN ACTUAL USAGE FOR
PROBLEMS WITH SUBSTANTIAL CHANGES IN ACTIVE DEGREES OF FREEDOM BETWEEN STEPS (OR EVEN WITHIN
THE SAME STEP). EXAMPLES ARE: PROBLEMS WITH SIGNIFICANT CONTACT CHANGES, PROBLEMS WITH MODEL
CHANGE, PROBLEMS WITH BOTH STATIC STEP AND STEADY STATE DYNAMIC PROCEDURES WHERE ACOUSTIC
ELEMENTS WILL ONLY BE ACTIVATED IN THE STEADY STATE DYNAMIC STEPS.
(4) FOR MULTI-PROCESS EXECUTION, THE ESTIMATED VALUE OF FLOATING POINT OPERATIONS FOR EACH PROCESS
IS BASED ON AN INITIAL SCHEDULING OF OPERATIONS AND MIGHT NOT REFLECT THE ACTUAL FLOATING
POINT OPERATIONS COMPLETED ON EACH PROCESS. OPERATIONS ARE DYNAMICALLY BALANCED DURING EXECUTION,
SO THE ACTUAL BALANCE OF OPERATIONS BETWEEN PROCESSES IS EXPECTED TO BE BETTER THAN THE ESTIMATE
PRINTED HERE.
(5) THE UPPER LIMIT OF MEMORY THAT CAN BE ALLOCATED BY ABAQUS WILL IN GENERAL DEPEND ON THE VALUE OF
THE "MEMORY" PARAMETER AND THE AMOUNT OF PHYSICAL MEMORY AVAILABLE ON THE MACHINE. PLEASE SEE
THE "ABAQUS ANALYSIS USER'S MANUAL" FOR MORE DETAILS. THE ACTUAL USAGE OF MEMORY AND OF DISK
SPACE FOR SCRATCH DATA WILL DEPEND ON THIS UPPER LIMIT AS WELL AS THE MEMORY REQUIRED TO MINIMIZE
I/O. IF THE MEMORY UPPER LIMIT IS GREATER THAN THE MEMORY REQUIRED TO MINIMIZE I/O, THEN THE ACTUAL
MEMORY USAGE WILL BE CLOSE TO THE ESTIMATED "MEMORY TO MINIMIZE I/O" VALUE, AND THE SCRATCH DISK
USAGE WILL BE CLOSE-TO-ZERO; OTHERWISE, THE ACTUAL MEMORY USED WILL BE CLOSE TO THE PREVIOUSLY
MENTIONED MEMORY LIMIT, AND THE SCRATCH DISK USAGE WILL BE ROUGHLY PROPORTIONAL TO THE DIFFERENCE
BETWEEN THE ESTIMATED "MEMORY TO MINIMIZE I/O" AND THE MEMORY UPPER LIMIT. HOWEVER ACCURATE
ESTIMATE OF THE SCRATCH DISK SPACE IS NOT POSSIBLE.
(6) USING "*RESTART, WRITE" CAN GENERATE A LARGE AMOUNT OF DATA WRITTEN IN THE WORK DIRECTORY.
INCREMENT 1 SUMMARY
TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 1.00
STEP TIME COMPLETED 1.00 , TOTAL TIME COMPLETED 1.00
J - I N T E G R A L E S T I M A T E S
CRACK CRACKFRONT C O N T O U R S
NUMBER NODE SET
1 2 3 4 5
6 7 8 9 10
1 XJ01 29.15 29.11 29.11 29.11 29.12
29.12 29.12 29.12 29.12 29.12
K F A C T O R E S T I M A T E S
CRACK CRACKFRONT C O N T O U R S
NUMBER NODE SET
1 2 3 4 5
6 7 8 9 10
2 XJ01 K1 :
2531. 2529. 2529. 2529. 2530.
K2: 0.000 0.000 0.000 0.000 0.000
MTS DIRECTION (DEG): 0.000 0.000 0.000 0.000 0.000
J from Ks: 29.15 29.11 29.11 29.11 29.12
K1: 2530. 2530. 2530. 2530. 2530.
K2: 0.000 0.000 0.000 0.000 0.000
MTS DIRECTION (DEG): 0.000 0.000 0.000 0.000 0.000
J from Ks: 29.12 29.12 29.12 29.12 29.12
T - S T R E S S E S T I M A T E S
CRACK CRACKFRONT C O N T O U R S
NUMBER NODE SET
1 2 3 4 5
6 7 8 9 10
3 XJ01 -254.2 -246.8 -246.6 -246.2 -245.7
-245.9 -245.9 -245.9 -245.9 -245.9
THE ANALYSIS HAS BEEN COMPLETED
ANALYSIS COMPLETE
JOB TIME SUMMARY
USER TIME (SEC) = 0.42000
SYSTEM TIME (SEC) = 8.00000E-02
TOTAL CPU TIME (SEC) = 0.50000
WALLCLOCK TIME (SEC) = 0
