nck
Nickname file used by Abaqus/Standard. It stores a set of internal identifiers for the degrees of freedom in a model.
odb
Output database. It is written by the analysis and continue options in Abaqus/Standard and Abaqus/Explicit. It is read by the Visualization module in Abaqus/CAE (Abaqus/Viewer) and by the convert=odb option. This file is required for restart.
opr
Sparse solver operator file, which is a temporary scratch file used by the sparse solver in Abaqus/Standard.
pac
Package file, which contains model information and is used by Abaqus/Explicit only. It is written by the analysis and datacheck options. It is read by the analysis, continue, and recover options. This file is required for restart.
par
Modified version of original parametrized input file showing input parameters and their values.
pes
Modified version of original parametrized input file showing input free of parameter information (after input parameter evaluation and substitution has been performed).
pmg
Parameter evaluation and substitution message file. It is written when the input file is parametrized.
prt
Part file. This file is used to store part and assembly information and is created even if the input file does not contain an assembly definition. The part file is required for restart, import, sequentially coupled thermal-stress analysis, symmetric model generation, and underwater shock analysis, even if the model is not defined in terms of an assembly of part instances. This file may also be needed for submodeling analysis.
psf
Python scripting file. You must create this type of file to define a parametric study.
res
Restart file, which contains information necessary to continue a previous analysis. The restart file is written by the analysis, datacheck, and continue options. It is read by any restarted analysis.
scr
Lanczos scratch file. This is a temporary scratch file that is used to hold temporary information required by the Lanczos solver.
sct
Perturbation results scratch file. This file temporarily holds element results needed for output in Abaqus/Standard perturbation steps.
sdb
Sparse solver database file. This is a temporary file that is used by the sparse solver.
sel
Selected results file, used by Abaqus/Explicit. It is written by the analysis, continue, and recover options and is read by the convert=select option. This file is required for restart.
sim
Linear dynamics data file. It is written during the frequency extraction procedure in SIM-based linear dynamics analyses (see ¨DUsing the SIM architecture for mode-based linear dynamic analyses¡¬ in ¨DDynamic analysis procedures: overview,¡¬ Section 6.3.1, for details) and is used to store eigenvectors, substructure matrices, and other modal system information. This file is required for restart.
sol
Sparse solver file used to store the solution vectors for a problem. This file is a temporary file used by the sparse solver in Abaqus/Standard.
sst
Sparse solver scratch file. This temporary scratch file is used by the sparse solver in Abaqus/Standard.
sta
Status file. Abaqus writes increment summaries to this file in the analysis, continue, and recover options.
stt
State file. It is written by the datacheck option in Abaqus/Standard and Abaqus/Explicit. It is read and can be written by the analysis and continue options in Abaqus/Standard. It is read by the analysis and continue options in Abaqus/Explicit. Multiple state files may exist if the element operations are executed in parallel in an Abaqus/Standard analysis. In such a case a process identifier is attached to the file name. This file is required for restart.
sup
Substructure file, used by Abaqus/Standard.
var
File containing information about the input file variations generated by a parametric study.
023
Communications file. It is written by the analysis and datacheck options and is read by the analysis and continue options.
ABAQUSÖеÄÎļþÀàÐÍÏê½â
2011-02-13 21:19:25| ·ÖÀࣺABAQUS |×ֺŠ¶©ÔÄ
ABAQUS²úÉú¼¸ÀàÎļþ£ºÓÐЩÊÇÔÚÔËÐÐÊDzúÉú£¬ÔËÐкó×Ô¶¯É¾³ý£»ÆäËüһЩÓÃÓÚ·ÖÎö¡¢ÖØÆô¡¢ºó´¦Àí¡¢½á¹ûת»»»òÆäËüÈí¼þµÄÎļþÔò±»±£Áô£¬ÏêϸÈçÏ£º 1.model_database_name.cae Ä£ÐÍÐÅÏ¢¡¢·ÖÎöÈÎÎñµÈ 2.model_database_name.jnl
ÈÕÖ¾Îļþ£º°üº¬ÓÃÓÚ¸´ÖÆÒѴ洢ģÐÍÊý¾Ý¿âµÄABAQUS/CAEÃüÁî
*.caeºÍ *.jnl¹¹³ÉÖ§³ÖCAEµÄÁ½¸öÖØÒªÎļþ£¬Òª±£Ö¤ÔÚCAEÏ´ò¿ªÒ»¸öÏîÄ¿£¬ÕâÁ½¸öÎļþ±ØÐëͬʱ´æÔÚ£» 3£®job_name.inp
ÊäÈëÎļþ¡£ÓÉabaqus CommandÖ§³Ö¼ÆËãÆðʼÎļþ£¬ËüÒ²¿ÉÓÉCAE´ò¿ª£» 4£® job_name.dat
Êý¾ÝÎļþ£ºÎı¾Êä³öÐÅÏ¢£¬¼Ç¼·ÖÎö¡¢Êý¾Ý¼ì²é¡¢²ÎÊý¼ì²éµÈÐÅÏ¢¡£ABAQUS/Explicit µÄ·ÖÎö½á¹û²»»áдÈëÕâ¸öÎļþ 5.job_name.sta
״̬Îļþ£º°üº¬·ÖÎö¹ý³ÌÐÅÏ¢ 6. job_name.msg
ÊǼÆËã¹ý³ÌµÄÏêϤ¼Ç¼£¬·ÖÎö¼ÆËãÖеÄƽºâµü´ú´ÎÊý£¬¼ÆËãʱ¼ä£¬¾¯¸æÐÅÏ¢£¬µÈµÈ¿ÉÓÉ´ËÎļþ»ñµÃ¡£ÓÃSTEPÄ£¿é¶¨Òå 7. job_name.res
ÖØÆô¶¯Îļþ£¬ÓÃSTEPÄ£¿é¶¨Òå 8.job_name.odb
Êä³öÊý¾Ý¿âÎļþ£¬¼´½á¹ûÎļþ£¬ÐèÒªÓÉVisuliazation´ò¿ª 9.job_name.fil
ҲΪ½á¹ûÎļþ£¬¿É±»ÆäËüÓ¦ÓóÌÐò¶ÁÈëµÄ·ÖÎö½á¹û±íʾ¸ñʽ¡£ABAQUS/Standard¼Ç¼·ÖÎö½á¹û¡£ABAQUS/Explicit.µÄ·ÖÎö½á¹ûҪдÈë´ËÎļþÖÐÔòÐèҪת»»£¬convert=select »òconvert=all 10. abaqus.rpy
¼Ç¼һ´Î²Ù×÷Öм¸ºõËùÓеÄABAQUS/CAEÃüÁî 11. job_name.lck
×èÖ¹²¢·¢Ð´ÈëÊä³öÊý¾Ý¿â£¬¹Ø±ÕÊä³öÊý¾Ý¿âÔò×ÔÐÐɾ³ý 12.model_database_name.rec
°üº¬ÓÃÓÚ»Ö¸´ÄÚ´æÖÐÄ£ÐÍÊý¾Ý¿âµÄABAQUS/CAEÃüÁî 13. job_name.ods
³¡Êä³ö±äÁ¿µÄÁÙʱ²Ù×÷ÔËËã½á¹û£¬×Ô¶¯É¾³ý 14.job_name.ipm
ÄÚ²¿¹ý³ÌÐÅÏ¢Îļþ£ºÆô¶¯ABAQUS/CAE·ÖÎöʱ¿ªÊ¼Ð´È룬¼Ç¼ÁË´Ó ABAQUS/Standard»òABAQUS/Explicit µ½ ABAQUS/CAEµÄ¹ý³ÌÈÕÖ¾ 15£®job_name.log
ÈÕÖ¾Îļþ£º°üº¬ÁË ABAQUSÖ´Ðйý³ÌµÄÆðֹʱ¼äµÈ 16£®job_name.abq
ABAQUS/ExplicitÄ£¿é²ÅÓеÄ״̬Îļþ£¬¼Ç¼·ÖÎö¡¢¼ÌÐøºÍ»Ö¸´ÃüÁΪrestartËùÐèµÄÎļþ¡£
17£®job_name.mdl
Ä£ÐÍÎļþ£ºÔÚABAQUS/Standard ºÍ ABAQUS/ExplicitÖÐÔËÐÐÊý¾Ý¼ì²éºó²úÉúµÄÎļþ£¬.ÔÚ analysisºÍcontinue Ö¸Áîϱ»¶ÁÈë²¢ÖØд£¬ÎªrestartËùÐèµÄÎļþ¡£ 18£®job_name.pac
´ò°üÎļþ£º°üº¬ÁËÄ£ÐÍÐÅÏ¢£¬½öÓÃÓÚABAQUS/Explicit £¬¸ÃÎļþÔÚÖ´ÐÐ analysis¡¢datacheckÃüÁîʱдÈ룬ִÐÐ analysis, continue, recover Ö¸Áîʱ¶ÁÈ룬restartʱÐèÒªµÄÎļþ¡£
19£®job_name.prt
Áã¼þÐÅÏ¢Îļþ£º°üº¬ÁËÁã¼þÓë×°ÅäÐÅÏ¢.¡£restartʱÐèÒª 20£®job_name.sel
½á¹ûÑ¡ÔñÎļþ£ºÓÃÓÚABAQUS/Explicit£¬Ö´ÐÐanalysis¡¢continue¡¢recover Ö¸ÁîʱдÈë²¢ÓÉ convert=select Ö¸Áîʱ¶ÁÈ룬ΪrestartËùÐèµÄÎļþ¡£ 21£®job_name.stt
״̬ÍâÎļþ£ºÊý¾Ý¼ì²éʱдÈëµÄÎļþ£¬ÔÚABAQUS/StandardÖпÉÔÚanalysis ¡¢