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请教一个灵敏度分析的问题。VL11版本,按照帮助文档步骤做Sensitivity Analysis ,但是计算成功后没有结果。
Job Detail如下:
XPR VERSION 11
Starting Nastran ...
Nastran is running: Th Mar 21 10:16:39 2013
Retrieving Nastran Results....
Nastran finished without errors at: Th Mar 21 10:16:44 2013
可是.op2文件只有2kb,图形没有任何信息。而附送的资料里该结果文件有4kb。
请问这是什么问题?by the way,计算产生一个fort.11文件,该文件是干什么用的?
下面附.06文件。
1
THIS PROGRAM IS CONFIDENTIAL AND A TRADE SECRET OF MSC.SOFTWARE CORPORATION. THE RECEIPT OR
POSSESSION OF THIS PROGRAM DOES NOT CONVEY ANY RIGHTS TO REPRODUCE OR DISCLOSE ITS CONTENTS, OR TO
MANUFACTURE, USE, OR SELL ANYTHING HEREIN, IN WHOLE OR IN PART, WITHOUT THE SPECIFIC WRITTEN CONSENT
OF MSC.SOFTWARE CORPORATION.
* * * * * * * * * * * * * * * * * * * *
* * * * * * * * * * * * * * * * * * * *
* * * *
* * MSC.SOFTWARE * *
* * CORP * *
* * * *
* * M D N a s t r a n 2010 * *
* * * *
* * * *
* * * *
* * Version 2010.1.0-CL83495 * *
* * * *
* * * *
* * * *
* * JUL 15, 2010 * *
* * * *
* * Intel * *
* *MODEL Corei7-2600 @ 3.40GHz/716 * *
* *Windows 7 Ultimate 6.1 (Build 76 * *
* * * *
* * * *
* * * * * * * * * * * * * * * * * * * *
* * * * * * * * * * * * * * * * * * * *
1 MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 1
0 N A S T R A N F I L E A N D S Y S T E M P A R A M E T E R E C H O
0
NASTRAN BUFFSIZE=8193 $(D:/MSC.SOFTWARE/MD_NASTRAN/20101/CONF/NAST20101.RCF[2])
NASTRAN REAL=799539200 $(PROGRAM DEFAULT)
$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$
$
$ EXPORTED BY LMS VIRTUAL.LAB (TM) REV 11
$
$ CREATED AT : THU MAR 21 10:16:38 2013
$ FROM DOCUMENT : ANALYSIS1.CATANALYSIS
$ USER : OUYANG
$
$ UNITS : ||||: ||||
$ : ||||: ||
$ : ||||: ||
$ : ||||: ||||
$ : ||||: ||||||
$
$ NASTRANVERSION : 2010
$
$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$
$
$ BEGIN COMMAND SECTION
$
NASTRAN PUNCHTYPE=0
$
$ END COMMAND SECTION
$
$
$ BEGIN FILE MANAGEMENT SECTION
$
$ BEGIN ADDITIONAL NASTRAN CARDS FILE MANAGEMENT SECTION
$ END ADDITIONAL NASTRAN CARDS FILE MANAGEMENT SECTION
$
$ END FILE MANAGEMENT SECTION
$
$
$ BEGIN EXECUTIVE CONTROL
$
1 MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 2
0 N A S T R A N E X E C U T I V E C O N T R O L E C H O
0
SOL 200
$ BEGIN ADDITIONAL NASTRAN CARDS EXECUTIVE CONTROL SECTION
$ END ADDITIONAL NASTRAN CARDS EXECUTIVE CONTROL SECTION
$
$ DMAP FOR OUTPUT OF SENSITIVITY DATABLOCKS IN OUTPUT2
$ VALID FOR MSC - VERSION 2008
$
COMPILE IFPL, SOUIN=MSCSOU, NOLIST, NOREF
ALTER 'ENDIF $ AUXMID=0' $
$ TABPT CA**X// $
$ TABPT EDOM// $
OUTPUT2 CA**X,,,,//0/12///'CASECC' $
OUTPUT2 EDOM,,,//0/12// $
$
COMPILE EXITOPT, SOUIN=MSCSOU, NOLIST, NOREF
ALTER 'SDSC' $
IF (RQANO) THEN
$
$ REMOVE SPAWNED GENERALIZED STIFFNESS AND MASS DSA FROM DSCM2
$
PARTN DSCM2,MRQA,/DSCM2NGS, DSCM2GS,,/1 $
EQUIVX DSCM2NGS/DSCM2/ALWAYS $
ENDIF $
$ TABPT DSCMCOL// $
$ TABPT DSCM2// $
OUTPUT2 DSCMCOL,,,,//0/12// $
OUTPUT2 DSCM2,,,,//0/12// $
OUTPUT2 //-9/12//$ END OF FILE MARKER
$
ALTER 'RQANO'(3),'RQANO'(3,3) $
ENDALTER
$
COMPILE SUPER3, SOUIN=MSCSOU, NOLIST, NOREF
ALTER 'IF ( NOOUT>-1 ) CALL SEDRCVR' $
COPY OUG1/OUGV1/-1/ $
OUTPUT2 OUGV1,,,,//0/12///'OUG' $
$
$ FOLLOWING LINES NEED TO BE ADDED TO THE BULK SECTION $
$ WITHOUT COMMENT CHARACTERS $
$
$ PARAM,SPARSEDR,NO
$ DSCREEN,FREQ,-1000.
$
CEND
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 3
0
0 C A S E C O N T R O L E C H O
COMMAND
COUNT
1 $
2 $ END EXECUTIVE CONTROL
3 $
4 $
5 $ BEGIN CASE CONTROL
6 $
7 TITLE=EXPORTED BY LMS NASTRAN DRIVER
8 ECHO=NONE
9 AUTOSPC(NOPRINT,NOPUNCH,SPC)=YES
10 DESGLB=1
11 METHOD=1
12 SUBCASE=1
13 SUBTITLE=MODE FREQUENCY
14 SET 1=11730
15 DISPLACEMENT(SORT1,PLOT,REAL)=1
16 METHOD=1
17 DESSUB=2
18 ANALYSIS=MODES
19 $
20 $ END CASE CONTROL
21 $
22 $
23 $ BEGIN BULK DATA
24 $11111112222222233333333444444445555555566666666777777778888888899999999
25 $
26 BEGIN BULK
0 INPUT BULK DATA ENTRY COUNT = 14413
0 TOTAL COUNT= 14288
^^^
^^^ >>> IFP OPERATIONS COMPLETE <<<
^^^
M O D E L S U M M A R Y
NUMBER OF GRID POINTS = 4340
NUMBER OF CQUAD4 ELEMENTS = 4374
NUMBER OF CTRIA3 ELEMENTS = 1638
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 4
0
0
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK CA**X WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR CASEC, TRL =
101 1 0 1003 0 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS CA**X
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 1003 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 15 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 1027 WORDS.)
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK EDOM WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR EDO, TRL =
101 32768 2 33984 2 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS EDOM
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 63 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 50 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 291 WORDS.)
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 5
0
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 6
0
THERE ARE 4374 QUAD4 ELEMENTS. FIRST EID = 373 LAST EID = 19742
THERE ARE 1638 TRIA3 ELEMENTS. FIRST EID = 372 LAST EID = 20014
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 7
0
----- COMPARISON BETWEEN INPUT PROPERTY VALUES FROM ANALYSIS AND DESIGN MODELS -----
-----------------------------------------------------------------------------------------------------------------------------
PROPERTY PROPERTY PROPERTY ANALYSIS DESIGN LOWER UPPER DIFFERENCE SPAWNING
TYPE ID NAME VALUE VALUE BOUND BOUND FLAG FLAG
-----------------------------------------------------------------------------------------------------------------------------
PSHELL 16 T 2.500000E+00 2.500000E+00 N/A N/A NONE
1. THE DIFFERENCE FLAG IS USED TO CHARACTERIZE DIfFERENCES BETWEEN ANALYSIS AND DESIGN MODEL PROPERTIES:
IF THE FLAG IS NONE, THEN THERE IS NO SIGNIFICANT DIFFERENCE BETWEEN THE TWO VALUES.
IF THE FLAG IS WARNING, THEN THE USER IS ADVISED THAT DIFFERENCES EXIST AND THE DESIGN MODEL
IS BEING USED TO OVERRIDE THE ANALYSIS MODEL.
IF THE FLAG IS FATAL, THEN THE DIFFERENCES ARE GREATER THAN 1.00000E+35 AND THE RUN WILL BE TERMINATED.
2. THE SPAWNING FLAG (*) INDICATES THAT THE SPAWNED PROPERTY IS DERIVED EITHER FROM THE BEAM CROSS SECTION
LIBRARY OR FROM A PBEAM ENTRY. THE PROPERTY ID FOR THE SPAWNED PROPERTY IS IDENTICAL TO ITS PARENT.
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 8
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----- COMPARISON BETWEEN INPUT MATERIAL PROPERTY VALUES FROM ANALYSIS AND DESIGN MODELS -----
---------------------------------------------------------------------------------------------------------------
MATERIAL MATERIAL MATERIAL ANALYSIS DESIGN LOWER UPPER DIFFERENCE
TYPE ID NAME VALUE VALUE BOUND BOUND FLAG
---------------------------------------------------------------------------------------------------------------
MAT1 1 E 7.000000E+04 7.000000E+04 N/A N/A NONE
MAT1 1 RHO 2.800000E-09 2.800000E-09 N/A N/A NONE
1. THE DIFFERENCE FLAG IS USED TO CHARACTERIZE DIfFERENCES BETWEEN ANALYSIS AND DESIGN MODEL PROPERTIES:
IF THE FLAG IS NONE, THEN THERE IS NO SIGNIFICANT DIFFERENCE BETWEEN THE TWO VALUES.
IF THE FLAG IS WARNING, THEN THE USER IS ADVISED THAT DIFFERENCES EXIST AND THE DESIGN MODEL
IS BEING USED TO OVERRIDE THE ANALYSIS MODEL.
IF THE FLAG IS FATAL, THEN THE DIFFERENCES ARE GREATER THAN 1.00000E+35 AND THE RUN WILL BE TERMINATED.
*** USER WARNING MESSAGE 7409 (DOPR1J)
EQUATION: E = 2*(1+NU)*G MAY BE VIOLATED FOR MAT1 ENTRY ID = 1 REFERRED BY DVMREL1 AND/OR DVMREL2 ENTRIES.
USER INFORMATION: THE CORRESPONDING SENSITIVITY COEFFICIENTS MAY BE INACCURATE.
USER ACTION: LEAVE AT LEAST ONE OF THE THREE VALUES (E, G, NU) BLANK AND UNREFERRED BY A DVMREL1/DVMREL2 ENTRIES
*** USER INFORMATION MESSAGE 4109 (OUTPX2)
THE LABEL IS XXXXXXXX FOR FORTRAN UNIT 12
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 7 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 10 RECORDS.)
(TOTAL DATA WRITTEN FOR LABEL = 21 WORDS.)
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK GEOM1X WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR GEOM, TRL =
101 0 0 8 0 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS GEOM1
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 16386 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 24 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 47783 WORDS.)
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK GEOM2X WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR GEOM, TRL =
102 0 0 0 8224 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS GEOM2
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 16386 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 35 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 88595 WORDS.)
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK EPTX WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR EP, TRL =
105 0 512 0 0 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS EPT
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 652 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 20 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 690 WORDS.)
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 9
0
0
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK MPTS WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR MPT, TRL =
101 32768 0 0 0 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS MPTS
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 135 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 20 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 173 WORDS.)
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK DYNAMICS WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR DYNAMIC, TRL =
103 256 0 0 0 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS DYNAMICS
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 30 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 20 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 68 WORDS.)
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK DESTAB WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR DESTA, TRL =
101 3 3 0 3 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS DESTAB
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 8 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 25 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 63 WORDS.)
^^^ USER INFORMATION MESSAGE 9024 (FEA)
^^^ STIFFNESS, MASS, DAMPING, AND LOAD GENERATION INITIATED. DESIGN CYCLE NUMBER=1
*** USER INFORMATION MESSAGE 7555 (GMTSTD)
FINITE ELEMENT GEOMETRY CHECK RESULTS EXCEED TOLERANCE LEVELS FOR THE FOLLOWING ELEMENTS. METRIC VALUES THAT EXCEED
TEST TOLERANCE LIMITS ARE IDENTIFIED BY ONE OF THE FOLLOWING FLAGS PLACED TO THE RIGHT OF THE METRIC VALUE.
"++++" FOR TEST RESULTS EXCEEDING TOLERANCES. INFORMATIONAL ONLY. PROBLEM SOLUTION CONTINUES. (DEFAULT FLAG)
"IGNR" FOR TEST RESULTS EXCEEDING TOLERANCES. INFORMATIONAL ONLY. PROBLEM SOLUTION CONTINUES.
"WARN" FOR TEST RESULTS EXCEEDING TOLERANCES. INFORMATIONAL ONLY. PROBLEM SOLUTION CONTINUES.
"FAIL" FOR TEST RESULTS EXCEEDING TOLERANCES. SEVERE ERROR. PROBLEM SOLUTION TERMINATES.
USER ACTION: USE THE GEOMCHECK (EXECUTIVE CONTROL STATEMENT) KEYWORD=VALUE TO CHANGE TOLERANCE VALUES IF DESIRED.
A MAXIMUM OF 100 SKEW ANGLE (SA) TOLERANCE LIMIT VIOLATIONS WILL BE IDENTIFIED BY THE FLAG "++++"
PLACED AFTER THE VALUE METRIC FOR THE TEST.
A MAXIMUM OF 100 MAX INT. ANGLE (IA) TOLERANCE LIMIT VIOLATIONS WILL BE IDENTIFIED BY THE FLAG "++++"
PLACED AFTER THE VALUE METRIC FOR THE TEST.
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 10
0
TOLERANCE LIMITS ARE: SKEW = 10.00, IA(MAX) = 160.00 (++++ = LIMIT VIOLATED)
ELEMENT TYPE ID SKEW ANGLE MAX INT. ANGLE
TRIA3 5625 9.06 ++++ 97.05
TRIA3 5927 8.40 ++++ 156.76
TRIA3 6303 9.62 ++++ 130.56
TRIA3 6305 9.14 ++++ 140.19
TRIA3 7140 6.20 ++++ 165.63 ++++
TRIA3 7142 6.20 ++++ 165.62 ++++
TRIA3 7160 6.27 ++++ 88.53
TRIA3 7217 9.80 ++++ 95.59
TRIA3 7242 9.09 ++++ 134.20
TRIA3 7634 9.06 ++++ 121.54
TRIA3 8131 8.62 ++++ 90.00
TRIA3 8161 8.62 ++++ 90.00
TRIA3 8163 8.62 ++++ 90.00
TRIA3 8520 9.86 ++++ 100.16
TRIA3 8521 8.61 ++++ 98.73
TRIA3 8528 9.75 ++++ 100.38
TRIA3 8529 9.63 ++++ 100.12
TRIA3 8673 6.69 ++++ 154.96
TRIA3 8837 9.87 ++++ 158.37
TRIA3 8955 4.51 ++++ 165.76 ++++
TRIA3 8956 9.73 ++++ 150.95
TRIA3 10031 5.38 ++++ 169.14 ++++
TRIA3 17001 5.43 ++++ 90.00
TRIA3 17003 5.47 ++++ 90.00
TRIA3 18204 8.40 ++++ 156.76
TRIA3 18226 9.62 ++++ 130.56
TRIA3 18227 9.14 ++++ 140.19
TRIA3 18352 6.20 ++++ 165.63 ++++
TRIA3 18354 6.20 ++++ 165.62 ++++
TRIA3 18357 6.27 ++++ 88.53
TRIA3 18391 9.80 ++++ 95.59
TRIA3 18402 9.09 ++++ 134.20
TRIA3 18570 9.86 ++++ 100.16
TRIA3 18571 8.61 ++++ 98.73
TRIA3 18573 9.75 ++++ 100.38
TRIA3 18574 9.63 ++++ 100.12
TRIA3 18661 6.69 ++++ 154.96
TRIA3 18953 5.38 ++++ 169.14 ++++
TRIA3 18973 5.43 ++++ 90.00
TRIA3 18974 5.47 ++++ 90.00
TRIA3 19750 9.06 ++++ 97.05
TRIA3 19768 9.06 ++++ 121.54
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 11
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TOLERANCE LIMITS ARE: SKEW = 10.00, IA(MAX) = 160.00 (++++ = LIMIT VIOLATED)
ELEMENT TYPE ID SKEW ANGLE MAX INT. ANGLE
TRIA3 19803 8.62 ++++ 90.00
TRIA3 19804 8.62 ++++ 90.00
TRIA3 19805 8.62 ++++ 90.00
TRIA3 19957 9.87 ++++ 158.37
TRIA3 20002 4.51 ++++ 165.76 ++++
TRIA3 20003 9.73 ++++ 150.95
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 12
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E L E M E N T G E O M E T R Y T E S T R E S U L T S S U M M A R Y
TOTAL NUMBER OF TIMES TOLERANCES WERE EXCEEDED
ELEMENT SKEW ASPECT/ MINIMUM MAXIMUM SURFACE/FACE OFFSET EDGE POINT EDGE POINT JACOBIAN
TYPE ANGLE TAPER RATIO INTER. ANGLE INTER. ANGLE WARP FACTOR RATIO LENGTH RATIO ANGLE LIMIT DETERMINANT
QUAD4 0 0 0 0 0 N/A N/A N/A N/A
TRIA3 48 N/A N/A 0 N/A N/A N/A N/A N/A
N/A IN THE ABOVE TABLE INDICATES TESTS THAT ARE NOT APPLICABLE TO THE ELEMENT TYPE AND WERE NOT PERFORMED.
FOR ALL ELEMENTS WHERE GEOMETRY TEST RESULTS HAVE EXCEEDED TOLERANCES,
TRIA3 ELEMENT ID 8955 PRODUCED SMALLEST SKEW ANGLE OF 4.51 (TOLERANCE = 10.00).
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 13
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*** USER INFORMATION MESSAGE 7310 (VECPRN)
ORIGIN OF SUPERELEMENT BASIC COORDINATE SYSTEM WILL BE USED AS REFERENCE LOCATION.
RESULTANTS ABOUT ORIGIN OF SUPERELEMENT BASIC COORDINATE SYSTEM IN SUPERELEMENT BASIC SYSTEM COORDINATES.
0 OLOAD RESULTANT
SUBCASE/ LOAD
DAREA ID TYPE T1 T2 T3 R1 R2 R3
0 1 FX 0.000000E+00 ---- ---- ---- 0.000000E+00 0.000000E+00
FY ---- 0.000000E+00 ---- 0.000000E+00 ---- 0.000000E+00
FZ ---- ---- 0.000000E+00 0.000000E+00 0.000000E+00 ----
MX ---- ---- ---- 0.000000E+00 ---- ----
MY ---- ---- ---- ---- 0.000000E+00 ----
MZ ---- ---- ---- ---- ---- 0.000000E+00
TOTALS 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 14
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*** USER INFORMATION MESSAGE 7310 (VECPRN)
ORIGIN OF SUPERELEMENT BASIC COORDINATE SYSTEM WILL BE USED AS REFERENCE LOCATION.
RESULTANTS ABOUT ORIGIN OF SUPERELEMENT BASIC COORDINATE SYSTEM IN SUPERELEMENT BASIC SYSTEM COORDINATES.
0 OLOAD RESULTANT
SUBCASE/ LOAD
DAREA ID TYPE T1 T2 T3 R1 R2 R3
0 1 FX 0.000000E+00 ---- ---- ---- 0.000000E+00 0.000000E+00
FY ---- 0.000000E+00 ---- 0.000000E+00 ---- 0.000000E+00
FZ ---- ---- 0.000000E+00 0.000000E+00 0.000000E+00 ----
MX ---- ---- ---- 0.000000E+00 ---- ----
MY ---- ---- ---- ---- 0.000000E+00 ----
MZ ---- ---- ---- ---- ---- 0.000000E+00
TOTALS 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00
^^^ USER INFORMATION MESSAGE 9051 (FEA)
^^^ NORMAL MODES ANALYSIS INITIATED FOR ANALYSIS = MODES AND DESIGN CYCLE NUMBER = 1
*** USER INFORMATION MESSAGE 5010 (LNCILD)
STURM SEQUENCE DATA FOR EIGENVALUE EXTRACTION.
TRIAL EIGENVALUE = 1.997793D+03, CYCLES = 7.113698D+00 NUMBER OF EIGENVALUES BELOW THIS VALUE = 6
*** USER INFORMATION MESSAGE 5010 (LNCILD)
STURM SEQUENCE DATA FOR EIGENVALUE EXTRACTION.
TRIAL EIGENVALUE = 4.746940D+05, CYCLES = 1.096546D+02 NUMBER OF EIGENVALUES BELOW THIS VALUE = 11
TABLE OF SHIFTS: (LNNRIGL)
SHIFT # SHIFT VALUE FREQUENCY, CYCLES # EIGENVALUES BELOW # NEW EIGENVALUES FOUND
1. 1.9977935E+03 7.1136980E+00 6 11
2. 4.7469397E+05 1.0965463E+02 11 0
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 15
0 SUBCASE=1
0
E I G E N V A L U E A N A L Y S I S S U M M A R Y (READ MODULE)
BLOCK SIZE USED ...................... 7
NUMBER OF DECOMPOSITIONS ............. 2
NUMBER OF ROOTS FOUND ................ 11
NUMBER OF SOLVES REQUIRED ............ 10
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 16
0 SUBCASE=1
R E A L E I G E N V A L U E S
MODE EXTRACTION EIGENVALUE RADIANS CYCLES GENERALIZED GENERALIZED
NO. ORDER MASS STIFFNESS
1 1 -1.708054E-07 4.132861E-04 6.577652E-05 1.000000E+00 -1.708054E-07
2 2 -1.587566E-07 3.984427E-04 6.341413E-05 1.000000E+00 -1.587566E-07
3 3 -8.671691E-08 2.944774E-04 4.686752E-05 1.000000E+00 -8.671691E-08
4 4 -1.759054E-08 1.326293E-04 2.110861E-05 1.000000E+00 -1.759054E-08
5 5 6.742584E-08 2.596649E-04 4.132695E-05 1.000000E+00 6.742584E-08
6 6 3.500222E-07 5.916267E-04 9.416031E-05 1.000000E+00 3.500222E-07
7 7 1.177099E+05 3.430887E+02 5.460426E+01 1.000000E+00 1.177099E+05
8 8 1.194387E+05 3.455990E+02 5.500379E+01 1.000000E+00 1.194387E+05
9 9 3.004901E+05 5.481698E+02 8.724393E+01 1.000000E+00 3.004901E+05
10 10 3.816160E+05 6.177508E+02 9.831809E+01 1.000000E+00 3.816160E+05
11 11 4.117642E+05 6.416886E+02 1.021279E+02 1.000000E+00 4.117642E+05
^^^ USER INFORMATION MESSAGE 9051 (FEA)
^^^ NORMAL MODES ANALYSIS - DATA RECOVERY INITIATED FOR ANALYSIS= MODES AND DESIGN CYCLE NUMBER= 1
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK OUG1 WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR OUG, TRL =
101 0 88 0 0 0 2
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS OUG1
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 146 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 120 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 1814 WORDS.)
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK OUGV1 WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR OU, TRL =
101 0 88 0 0 0 2
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS OUGV1
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 146 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 120 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 1807 WORDS.)
^^^ USER INFORMATION MESSAGE 9052 (FEA)
^^^ NORMAL MODES ANALYSIS COMPLETED FOR ANALYSIS= MODES AND DESIGN CYCLE NUMBER= 1
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 17
0 SUBCASE=1
THIS IS THE FIRST ANALYSIS - NO CONVERGENCE CHECK
-------------------------------------------------------
MAXIMUM VALUE OF CONSTRAINTS : 2.0526E+02
-------------------------------------------------------
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK R1TABRG WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR R1TABR, TRL =
101 16 5 0 0 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS R1TABRG
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 15 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 90 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 331 WORDS.)
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK HISADD WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR HISAD, TRL =
102 3 0 0 0 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS HISADD
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 10 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 15 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 41 WORDS.)
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 18
0 SUBCASE=1
********************************************************************
* *
* *
* D E S I G N O P T I M I Z A T I O N *
* *
* *
********************************************************************
***********************************************
* *
* I N I T I A L A N A L Y S I S *
* *
***********************************************
******* ANALYSIS RESULTS BASED ON THE INITIAL DESIGN *******
----- DESIGN VARIABLES -----
---------------------------------------------------------------------------------------------------------
INTERNAL DESVAR LOWER UPPER
ID ID LABEL BOUND VALUE BOUND
---------------------------------------------------------------------------------------------------------
1 1 V3 5.0000E-01 1.0000E+00 2.0000E+00
2 2 V2 5.0000E-01 1.0000E+00 2.0000E+00
3 3 V1 5.0000E-01 1.0000E+00 2.0000E+00
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 19
0 SUBCASE=1
----- IDENTIFICATION OF COLUMNS IN THE DESIGN SENSITIVITY -----
----- MATRIX THAT ARE ASSOCIATED WITH DRESP1 ENTRIES -----
----- WEIGHT/VOLUME RESPONSES -----
------------------------------------------
COLUMN DRESP1 RESPONSE
NO. ENTRY ID TYPE
------------------------------------------
1 1 WEIGHT
----- EIGENVALUE RESPONSES -----
--------------------------------------------------------------------------
COLUMN DRESP1 RESPONSE MODE SUB
NO. ENTRY ID TYPE NO. CASE
--------------------------------------------------------------------------
2 2 FREQ 7 1
3 3 FREQ 8 1
4 4 FREQ 9 1
5 5 FREQ 10 1
6 6 FREQ 11 1
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK DSCMCOL WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR DSCMCO, TRL =
101 16 0 0 0 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS DSCMCOL
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 144 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 15 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 168 WORDS.)
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK DSCM2 WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT AND IN MATRI FORMAT, TRL =
101 6 3 2 1 3 9444
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS DSCM2
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 7 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 40 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 69 WORDS.)
*** USER INFORMATION MESSAGE 4110 (OUTPX2)
END-OF-DATA SIMULATION ON FORTRAN UNIT 12
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 1 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 1 RECORDS.)
(TOTAL DATA WRITTEN FOR EOF MARKER = 1 WORDS.)
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK DSCMCOL WRITTEN ON FORTRAN UNIT 11 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR DSCMCO, TRL =
101 16 0 0 0 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS DSCMCOL
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 144 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 15 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 168 WORDS.)
DATA BLOCK DSCM2 WRITTEN ON FORTRAN UNIT 11 FROM DMAP MODULE OUTPUT4 IN BINARY (LTLEND) FORMAT
TRAILER = 101 6 3 2 1 3 9444
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 20
0 SUBCASE=1
***************************************************************
S U M M A R Y O F D E S I G N C Y C L E H I S T O R Y
***************************************************************
NUMBER OF FINITE ELEMENT ANALYSES COMPLETED 1
NUMBER OF OPTIMIZATIONS W.R.T. APPROXIMATE MODELS 0
OBJECTIVE AND MAXIMUM CONSTRAINT HISTORY
---------------------------------------------------------------------------------------------------------------
OBJECTIVE FROM OBJECTIVE FROM FRACTIONAL ERROR MAXIMUM VALUE
CYCLE APPROXIMATE EXACT OF OF
NUMBER OPTIMIZATION ANALYSIS APPROXIMATION CONSTRAINT
---------------------------------------------------------------------------------------------------------------
INITIAL 0.000000E+00 2.052558E+02
---------------------------------------------------------------------------------------------------------------
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 21
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DESIGN VARIABLE HISTORY
----------------------------------------------------------------------------------------------------------------------------------
INTERNAL | EXTERNAL | |
DV. ID. | DV. ID. | LABEL | INITIAL : 1 : 2 : 3 : 4 : 5 :
----------------------------------------------------------------------------------------------------------------------------------
1 | 1 | V3 | 1.0000E+00 :
2 | 2 | V2 | 1.0000E+00 :
3 | 3 | V1 | 1.0000E+00 :
*** USER INFORMATION MESSAGE 6464 (DOM12E)
RUN TERMINATED DUE TO PARAMETER OPTEXIT = -4.
*** USER INFORMATION MESSAGE 4114 (OUTPX2)
DATA BLOCK SCRATCH WRITTEN ON FORTRAN UNIT 12 IN BINARY (LTLEND) FORMAT USING NDDL DESCRIPTION FOR QUALINF, TRL =
301 1 8 0 0 0 0
NAME OF DATA BLOCK WRITTEN ON FORTRAN UNIT IS QUALINFO
(MAXIMUM POSSIBLE FORTRAN RECORD SIZE = 16386 WORDS.)
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 63 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 50 RECORDS.)
(TOTAL DATA WRITTEN FOR DATA BLOCK = 292 WORDS.)
*** USER INFORMATION MESSAGE 4110 (OUTPX2)
END-OF-DATA SIMULATION ON FORTRAN UNIT 12
(MAXIMUM SIZE OF FORTRAN RECORDS WRITTEN = 1 WORDS.)
(NUMBER OF FORTRAN RECORDS WRITTEN = 1 RECORDS.)
(TOTAL DATA WRITTEN FOR EOF MARKER = 1 WORDS.)
1 EXPORTED BY LMS NASTRAN DRIVER MARCH 21, 2013 MD NASTRAN 7/15/10 PAGE 22
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* * * * D B D I C T P R I N T * * * * SUBDMAP = PRTSUM , DMAP STATEMENT NO. 40
0 * * * * A N A L Y S I S S U M M A R Y T A B L E * * * *
0 SEID PEID PROJ VERS APRCH SEMG SEMR SEKR SELG SELR MODES DYNRED SOLLIN PVALID SOLNL LOOPID DESIGN CYCLE SENSITIVITY
--------------------------------------------------------------------------------------------------------------------------
0 0 1 1 ' ' T T T T T T F T 0 F -1 0 T
0SEID = SUPERELEMENT ID.
PEID = PRIMARY SUPERELEMENT ID OF IMAGE SUPERELEMENT.
PROJ = PROJECT ID NUMBER.
VERS = VERSION ID.
APRCH = BLANK FOR STRUCTURAL ANALYSIS. HEAT FOR HEAT TRANSFER ANALYSIS.
SEMG = STIFFNESS AND MASS MATRIX GENERATION STEP.
SEMR = MASS MATRIX REDUCTION STEP (INCLUDES EIGENVALUE SOLUTION FOR MODES).
SEKR = STIFFNESS MATRIX REDUCTION STEP.
SELG = LOAD MATRIX GENERATION STEP.
SELR = LOAD MATRIX REDUCTION STEP.
MODES = T (TRUE) IF NORMAL MODES OR BUCKLING MODES CALCULATED.
DYNRED = T (TRUE) MEANS GENERALIZED DYNAMIC AND/OR COMPONENT MODE REDUCTION PERFORMED.
SOLLIN = T (TRUE) IF LINEAR SOLUTION EXISTS IN DATABASE.
PVALID = P-DISTRIBUTION ID OF P-VALUE FOR P-ELEMENTS
LOOPID = THE LAST LOOPID VALUE USED IN THE NONLINEAR ANALYSIS. USEFUL FOR RESTARTS.
SOLNL = T (TRUE) IF NONLINEAR SOLUTION EXISTS IN DATABASE.
DESIGN CYCLE = THE LAST DESIGN CYCLE (ONLY VALID IN OPTIMIZATION).
SENSITIVITY = SENSITIVITY MATRIX GENERATION FLAG.
No PARAM values were set in the Control File.
1 * * * END OF JOB * * *
No Symbolic Replacement variables or values were specified.
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