12113-STAADPro V8i Verification Manual
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STAAD.Pro V8i (SELECTseries 1) Release STAAD.Pro 20.07.06.35 Document Revised on 8 June 2010 Verification Manual DAA038960-1/0001
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STAADPro V8i Verification Manual
Transcript of 12113-STAADPro V8i Verification Manual
STAAD.Pro
V8i (SELECTseries 1)
Release STAAD.Pro 20.07.06.35
Document Revised on 8 June 2010
Verification Manual
DAA038960-1/0001
STAAD Verification ProblemsRelease STAAD.Pro 20.07.06.35
Date last updated: 8 June 2010
Quality Assurance ProgramSTAAD.Pro V8i SELECTseries 1 is a suite of proprietary computer programsof Research Engineers, a Bentley Solutions Center. Although every effort hasbeen made to ensure the correctness of these programs, neither REI norBentley Systems will accept responsibility for any mistake, error ormisrepresentation in or as a result of the usage of these programs.
Verification Manual — iii
Table of ContentsSTAAD Verification Problems
1 Plane Truss: Support Reactions Due to a Joint Load 1
2 Beam Supported on Two Springs with a Point Mass: Period of Free Vibration 5
3 A Cantilever Beam: Plate/Shell Elements 9
4 Cantilever Plane Bent with an Intermediate Support 15
5 Locomotive Axle: Deflection and Stress at Center 19
6 One-by-One Bay Plane Frame 25
7 Plane Truss: Joint Deflection Due to Joint Loads 29
8 One-by-One Bay Plane Frame 35
9 One-by-Two Bay Plane Frame: Lateral Loads 41
10 Space Frame 47
11 Temperature Load on Rigid Bar Suspended by Wires of Different Materials 53
12 Plane Truss: Joint Deflection and Member Stress Due to a Joint Load 59
13 Steel Design per 1989 AISC Code 65
14 Concrete Design per ACI 318 Code 77
15 Natural Modes of a Simple Beam 83
16 Natural Frequencies of a Circular Plate 91
17 Natural Frequencies of a Rectangular Plate. 101
18 Natural Modes of a Framework 109
19 Response of a Simply Supported Beam to a Shock Spectrum 119
20 Thermal Loading on a Simply Supported Rectangular Plate 127
21 Deflection Calculation Through Pushover Analysis 141
22 Fixed – Fixed Beam Excited by Harmonic Distributed Load 151
iv — STAAD.Pro
Copyright InformationTrademark NoticeBentley, the "B" Bentley logo, STAAD.Pro are registered or nonregisteredtrademarks of Bentley Systems, Inc. or Bentley Software, Inc. All other marksare the property of their respective owners.
Copyright Notice© 2009, Bentley Systems, Incorporated. All Rights Reserved.
Including software, file formats, and audiovisual displays; may only be usedpursuant to applicable software license agreement; contains confidential andproprietary information of Bentley Systems, Incorporated and/or third partieswhich is protected by copyright and trade secret law and may not be providedor otherwise made available without proper authorization.
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Adobe, the Adobe logo, Acrobat, the Acrobat logo are registered trademarks ofAdobe Systems Incorporated.
Restricted Rights LegendsIf this software is acquired for or on behalf of the United States of America, itsagencies and/or instrumentalities ("U.S. Government"), it is provided withrestricted rights. This software and accompanying documentation are"commercial computer software" and "commercial computer softwaredocumentation," respectively, pursuant to 48 C.F.R. 12.212 and 227.7202, and"restricted computer software" pursuant to 48 C.F.R. 52.227-19(a), asapplicable. Use, modification, reproduction, release, performance, display ordisclosure of this software and accompanying documentation by the U.S.Government are subject to restrictions as set forth in this Agreement andpursuant to 48 C.F.R. 12.212, 52.227-19, 227.7202, and 1852.227-86, asapplicable. Contractor/Manufacturer is Bentley Systems, Incorporated, 685Stockton Drive, Exton, PA 19341- 0678.
Unpublished - rights reserved under the Copyright Laws of the United Statesand International treaties.
End User License AgreementTo view the End User License Agreement for this product, review: eula_en.pdf.
Verification Manual — v
1 Plane Truss: Support Reactions Due to a JointLoad
OBJECTIVETo find the support reactions due to a joint load in a plane truss.
REFERENCETimoshenko, S., “Strength of Materials,” Part 1, D. Van Nostrand Co., Inc., 3rd
edition, 1956, page 346, problem 3.
PROBLEMDetermine the horizontal reaction at support 4 of the system.
COMPARISONSupport Reaction, Kips
Result Type Theory STAADBasic Solver
STAADAdvanced Solver
R4 8.77 8.77 8.77
Verification Manual — 1
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:45: 1 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD TRUSS :A PLANE TRUSSINPUT FILE: ver01.STD
2. * FILE: VER01.STD3. *4. * REFERENCE `STRENGTH OF MATERIALS' PART-1 BY S. TIMOSHENKO5. * PAGE 346 PROBLEM NO. 3. THE ANSWER IS REACTION = 0.877P.6. * THEREFORE IF P=10, REACTION = 8.777. *8. UNITS INCH KIP9. JOINT COORD10. 1 0. 0. ; 2 150. 100. ; 3 150. 50. ; 4 300. 0.11. MEMBER INCI12. 1 1 2 ; 2 1 3 ; 3 2 3 ; 4 2 4 ; 5 3 413. MEMB PROP14. 1 4 PRIS AX 5.0 ; 2 5 PRIS AX 3.0 ; 3 PRIS AX 215. CONSTANT ; E 30000. ALL16. SUPPORT ; 1 4 PINNED17. LOADING 118. JOINT LOAD ; 2 FY -10.19. PERFORM ANALYSIS
**WARNING** THE POISSON'S RATIO HAS NOT BEEN SPECIFIED FOR ONE OR MOREMEMBERS/ELEMENTS/SOLIDS. THE DEFAULT VALUE HAS BEEN SET FOR THE SAME.P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 4/ 5/ 2SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 2/ 2/ 4 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 4SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159655.3 MB:A PLANE TRUSS -- PAGE NO. 2* FILE: VER01.STD20. PRINT REACTION
REACTION:A PLANE TRUSS -- PAGE NO. 3* FILE: VER01.STDSUPPORT REACTIONS -UNIT KIP INCH STRUCTURE TYPE = TRUSS-----------------
JOINT LOAD FORCE-X FORCE-Y FORCE-Z MOM-X MOM-Y MOM Z1 1 8.77 5.00 0.00 0.00 0.00 0.004 1 -8.77 5.00 0.00 0.00 0.00 0.00
************** END OF LATEST ANALYSIS RESULT **************21. FINISH
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:45: 1 ****
:A PLANE TRUSS -- PAGE NO. 4* FILE: VER01.STD
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 *
2 — STAAD.Pro
1 Plane Truss: Support Reactions Due to a Joint Load
* SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
:A PLANE TRUSS -- PAGE NO. 5* FILE: VER01.STD
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 3
1 Plane Truss: Support Reactions Due to a Joint Load
4 — STAAD.Pro
1 Plane Truss: Support Reactions Due to a Joint Load
NOTES
2 Beam Supported on Two Springs with a PointMass: Period of Free Vibration
OBJECTIVETo find the period of free vibration for a beam supported on two springs with apoint mass.
REFERENCETimoshenko, S., Young, D., and Weaver, W., “Vibration Problems inEngineering,” John Wiley & Sons, 4th edition, 1974. page 11, problem 1.1-3.
PROBLEMA simple beam is supported by two spring as shown in the figure. Neglectingthe distributed mass of the beam, calculate the period of free vibration of thebeam subjected to a load of W.
GIVENEI = 30000.0 ksi
A = 7.0 ft
B = 3.0 ft.
W = 1000 lbfK = 300.0 lb/in.
COMPARISON
Result Type Theory STAADBasic Solver
STAADAdvanced Solver
Period, sec 0.533 0.533 0.533
Verification Manual — 5
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:45: 7 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD PLANE :NATURAL FREQUENCY OF A BEAM SUPPORTED ON TWO SPRINGSINPUT FILE: ver02.STD
2. * FILE: VER02.STD3. *4. * REFERENCE: TIMOSHENKO,YOUNG,WEAVER, "VIBRATION PROBLEMS IN5. * ENGINEERING", 4TH EDITION, JON WILEY & SONS,6. * NEW YORK, 1974, PAGE 11, PROB 1.1-37. * THE ANSWER IN THE BOOK IS T = 0.533 SEC., VIZ., F = 1.876 CPS8. *9. UNIT POUND FEET10. JOINT COORD ; 1 0. 0. ; 2 7. 0. ; 3 10. 0.11. MEMB INCI ; 1 1 2 212. UNIT INCH13. SUPPORT14. 1 3 FIXED BUT MZ KFY 300.15. MEMB PROP ; 1 2 PRIS AX 1. IZ 1.16. CONSTANT ; E 30E6 ALL17. CUT OFF MODE SHAPE 118. LOADING 1 1000 LB LOAD AT JOINT 219. JOINT LOAD ; 2 FY -1000.20. MODAL CALCULATION21. PERFORM ANALYS
**WARNING** THE POISSON'S RATIO HAS NOT BEEN SPECIFIED FOR ONE OR MOREMEMBERS/ELEMENTS/SOLIDS. THE DEFAULT VALUE HAS BEEN SET FOR THE SAME.P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 3/ 2/ 2:NATURAL FREQUENCY OF A BEAM SUPPORTED ON TWO SPRINGS -- PAGE NO. 2* FILE: VER02.STD
SOLVER USED IS THE OUT-OF-CORE BASIC SOLVERORIGINAL/FINAL BAND-WIDTH= 1/ 1/ 5 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 7SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159655.3 MB
NUMBER OF MODES REQUESTED = 1NUMBER OF EXISTING MASSES IN THE MODEL = 1NUMBER OF MODES THAT WILL BE USED = 1*** EIGENSOLUTION : SUBSPACE METHOD ***:NATURAL FREQUENCY OF A BEAM SUPPORTED ON TWO SPRINGS -- PAGE NO. 3* FILE: VER02.STD
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC) ACCURACY1 1.876 0.53317 2.047E-16
MODAL WEIGHT (MODAL MASS TIMES g) IN POUNMODE X Y Z
1 0.000000E+00 9.999999E+02 0.000000E+00PARTICIPATION FACTORS
MASS PARTICIPATION FACTORS IN PERCENT--------------------------------------
MODE X Y Z SUMM-X SUMM-Y SUMM-Z1 0.00100.00 0.00 0.000 100.000 0.000
22. FINISH*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:45: 7 ****
:NATURAL FREQUENCY OF A BEAM SUPPORTED ON TWO SPRINGS -- PAGE NO. 4
6 — STAAD.Pro
* FILE: VER02.STD************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
:NATURAL FREQUENCY OF A BEAM SUPPORTED ON TWO SPRINGS -- PAGE NO. 5* FILE: VER02.STD
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb
Verification Manual — 7
04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
8 — STAAD.Pro
3 A Cantilever Beam: Plate/Shell ElementsOBJECTIVETo find the deflection and moments for plate-bending finite element due to apressure load.
REFERENCESimple hand calculation by considering the entire structure as a cantileverbeam.
PROBLEMA simple cantilever plate is divided into 12 4-noded finite elements. A uniformpressure load is applied and the maximum deflection at the tip of thecantilever and the maximum bending at the support are calculated.
GIVENPlate thickness = 25 mm
Uniform pressure= 5 N/mm2
Plate length = 6 spaces at 50 mm = 300 mm
Plate width = 2 space at 50 mm = 100 mm
HAND CALCULATIONMax. deflection = WL3/8EI
Where:
Verification Manual — 9
WL3/8EI = [(5x300x100) x (300)3] /[8x(210x103N/sq.mm)x(100x253/12)] = (405x1010) / (21875x107) =18.51 mm
Max. moment = WL/2 = (5x300x100)x300/2 = 22.5x106N.mm =22.5 KN*m
COMPARISON
Result Type Hand Cal-culation
STAADBasicSolver
STAADAdvancedSolver
δmax 18.51 18.20 18.20
Mmax 22.50 22.50 22.50
Max Deflection (δ), mm and Max. Moment (M), KN*m
10 — STAAD.Pro
3 A Cantilever Beam: Plate/Shell Elements
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:45:13 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD SPACE FINITE ELEMENT VERIFICATIONINPUT FILE: ver03.STD
2. *3. * FILE : VER03.STD4. *5. * DEFLECTION OF A CANTILEVER PLATE UNDER UNIFORM PRESSURE.6. * COMPARISON WITH ESTABLISHED FORMULA (WL^3/8EI)7. *8. UNIT KNS MMS9. JOINT COORDINATES10. 1 0 0 0 7 300 0 011. REPEAT 2 0 50 012. *13. ELEMENT INCIDENCE14. 1 1 2 9 8 TO 615. REPEAT 1 6 716. *17. ELEMENT PROP18. 1 TO 12 THICK 25.019. *20. CONSTANT21. E 210.0 ALL22. POISSON STEEL ALL23. *24. SUPPORT25. 1 8 15 FIXED26. *27. UNIT NEWTON28. LOAD 1 5N/SQ.MM. UNIFORM LOAD29. ELEMENT LOAD30. 1 TO 12 PRESSURE 5.031. *32. PERFORM ANALYSISFINITE ELEMENT VERIFICATION -- PAGE NO. 2*
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 21/ 12/ 3SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 8/ 5/ 30 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 108SIZE OF STIFFNESS MATRIX = 4 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.1/ 159655.3 MB33. *34. PRINT DISPLACEMENT LIST 14
DISPLACE LIST 14FINITE ELEMENT VERIFICATION -- PAGE NO. 3*JOINT DISPLACEMENT (CM RADIANS) STRUCTURE TYPE = SPACE------------------
JOINT LOAD X-TRANS Y-TRANS Z-TRANS X-ROTAN Y-ROTAN Z-ROTAN14 1 0.0000 0.0000 1.8159 0.0000 -0.0813 0.0000
************** END OF LATEST ANALYSIS RESULT **************35. *36. UNIT KN METER
Verification Manual — 11
3 A Cantilever Beam: Plate/Shell Elements
37. PRINT REACTIONREACTIONFINITE ELEMENT VERIFICATION -- PAGE NO. 4*SUPPORT REACTIONS -UNIT KN METE STRUCTURE TYPE = SPACE-----------------
JOINT LOAD FORCE-X FORCE-Y FORCE-Z MOM-X MOM-Y MOM Z1 1 0.00 0.00 -18.91 -1.54 5.47 0.008 1 0.00 0.00 -112.19 0.00 11.56 0.0015 1 0.00 0.00 -18.91 1.54 5.47 0.00
************** END OF LATEST ANALYSIS RESULT **************38. FINISHFINITE ELEMENT VERIFICATION -- PAGE NO. 5*
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:45:14 ****
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
FINITE ELEMENT VERIFICATION -- PAGE NO. 6*
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb
12 — STAAD.Pro
3 A Cantilever Beam: Plate/Shell Elements
02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 13
3 A Cantilever Beam: Plate/Shell Elements
14 — STAAD.Pro
3 A Cantilever Beam: Plate/Shell Elements
NOTES
4 Cantilever Plane Bent with an Intermediate Sup-port
OBJECTIVETo find support reactions due to a load at the free end of a cantilever planebent with an intermediate support.
REFERENCETimoshenko, S., “Strength of Materials,” Part 1, D. Van Nostrand Co., Inc., 3rd
edition, 1956, page 346, problem 2.
PROBLEMDetermine the reaction of the system as shown in the figure.
P = 1 kip
L = 10 in
COMPARISON
Result Type Theory STAADBasic Solver
STAADAdvanced Solver
Rx 1.5 1.5 1.5
Reaction, Kip
Verification Manual — 15
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:45:19 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD PLANE :A CANTILEVER PLANE FRAME WITH AN INTERMEDIATE SUPPORTINPUT FILE: ver04.STD
2. * FILE VER04.STD3. *4. * REFERENCE: 'STRENGTH OF MATERIALS' PART-1 BY S. TIMOSHENKO5. * PAGE 346 PROBLEM NO. 2. THE ANSWER IN THE BOOK AFTER6. * RECALCULATION = 1.57. *8. UNIT INCH KIP9. JOINT COORD10. 1 0. 0. ; 2 0. 10. ; 3 0. 20. ; 4 10. 20.11. SUPPORT12. 1 FIXED ; 2 FIXED BUT FY MZ13. MEMB INCI14. 1 1 2 315. MEMB PROP ; 1 2 3 PRIS AX 10. IZ 100.16. CONSTANT ; E 3000. ALL17. LOADING 118. JOINT LOAD ; 4 FY -1.19. PERFORM ANALYSIS
**WARNING** THE POISSON'S RATIO HAS NOT BEEN SPECIFIED FOR ONE OR MOREMEMBERS/ELEMENTS/SOLIDS. THE DEFAULT VALUE HAS BEEN SET FOR THE SAME.P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 4/ 3/ 2SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 1/ 1/ 6 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 8SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159655.3 MB:A CANTILEVER PLANE FRAME WITH AN INTERMEDIATE SUPPORT -- PAGE NO. 2* FILE VER04.STD20. PRINT REACTION
REACTION:A CANTILEVER PLANE FRAME WITH AN INTERMEDIATE SUPPORT -- PAGE NO. 3* FILE VER04.STDSUPPORT REACTIONS -UNIT KIP INCH STRUCTURE TYPE = PLANE-----------------
JOINT LOAD FORCE-X FORCE-Y FORCE-Z MOM-X MOM-Y MOM Z1 1 1.50 1.00 0.00 0.00 0.00 -5.002 1 -1.50 0.00 0.00 0.00 0.00 0.00
************** END OF LATEST ANALYSIS RESULT **************21. FINISH
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:45:19 ****
:A CANTILEVER PLANE FRAME WITH AN INTERMEDIATE SUPPORT -- PAGE NO. 4* FILE VER04.STD
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 *
16 — STAAD.Pro
4 Cantilever Plane Bent with an Intermediate Support
* SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
:A CANTILEVER PLANE FRAME WITH AN INTERMEDIATE SUPPORT -- PAGE NO. 5* FILE VER04.STD
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 17
4 Cantilever Plane Bent with an Intermediate Support
18 — STAAD.Pro
4 Cantilever Plane Bent with an Intermediate Support
NOTES
5 Locomotive Axle: Deflection and Stress at CenterOBJECTIVETo find deflections and stress at the center of a locomotive axle.
REFERENCETimoshenko, S.,“Strength of Materials,” Part- 1, D. Van Nostrand Co., 3rd
edition, 1956. page 97, problems 1, 2.
PROBLEMDetermine the maximum stress in a locomotive axle (as shown in the figure) aswell as the deflection at the middle of the axle.
GIVENDiameter = 10 in.,
P = 26000 lbf
E = 30E6 psi
L1 = 13.5 in., L2 = 59 in.
Verification Manual — 19
COMPARISON
Result Type Theory STAADBasic Solver
STAADAdvanced Solver
σ 3575.* 3575. 3575.
δ 0.01040 0.01037 0.01037
Stress (σ), psi, and Deflection (δ), in.
* The value is recalculated.
20 — STAAD.Pro
5 Locomotive Axle: Deflection and Stress at Center
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:45:24 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD PLANE :A LOCOMOTIVE AXLEINPUT FILE: ver05.STD
2. * FILE: VER05.STD3. *4. * REFERENCE 'STRENGTH OF MATERIALS' PART-1 BY S. TIMOSHENKO5. * PAGE 97 PROBLEM NO. 1 AND 2.6. * ANSWERS ARE 3580 FOR MAX. STRESS AND 0.104 INCH FOR MAX. DEFLN.7. *8. UNIT INCH POUND9. JOINT COORD10. 1 0. 0. ; 2 13.5 0. ; 3 43. 0. ; 4 72.5 0. ; 5 86. 0.11. SUPPORT ; 2 4 PINNED12. MEMB INCI ; 1 1 2 413. MEMB PROP ; 1 TO 4 TABLE ST PIPE OD 10. ID 0.14. CONSTANT ; E 30E6 ALL15. LOADING 116. JOINT LOAD ; 1 5 FY -26000.17. PERFORM ANALYSIS
**WARNING** THE POISSON'S RATIO HAS NOT BEEN SPECIFIED FOR ONE OR MOREMEMBERS/ELEMENTS/SOLIDS. THE DEFAULT VALUE HAS BEEN SET FOR THE SAME.P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 5/ 4/ 2SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 1/ 1/ 4 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 11SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159655.3 MB18. PRINT MEMBER STRESSES:A LOCOMOTIVE AXLE -- PAGE NO. 2* FILE: VER05.STD
MEMBER STRESSES:A LOCOMOTIVE AXLE -- PAGE NO. 3* FILE: VER05.STD
MEMBER STRESSES---------------ALL UNITS ARE POUN/SQ INCHMEMB LD SECT AXIAL BEND-Y BEND-Z COMBINED SHEAR-Y SHEAR-Z
1 1 .0 0.0 0.0 0.0 0.0 441.4 0.01.00 0.0 0.0 3575.3 3575.3 441.4 0.0
2 1 .0 0.0 0.0 3575.3 3575.3 0.0 0.01.00 0.0 0.0 3575.3 3575.3 0.0 0.0
3 1 .0 0.0 0.0 3575.3 3575.3 0.0 0.01.00 0.0 0.0 3575.3 3575.3 0.0 0.0
4 1 .0 0.0 0.0 3575.3 3575.3 441.4 0.01.00 0.0 0.0 0.0 0.0 441.4 0.0
************** END OF LATEST ANALYSIS RESULT **************19. PRINT DISPLACEMENTS
DISPLACE:A LOCOMOTIVE AXLE -- PAGE NO. 4* FILE: VER05.STDJOINT DISPLACEMENT (INCH RADIANS) STRUCTURE TYPE = PLANE------------------
JOINT LOAD X-TRANS Y-TRANS Z-TRANS X-ROTAN Y-ROTAN Z-ROTAN1 1 0.00000 -0.01138 0.00000 0.00000 0.00000 0.00086
Verification Manual — 21
5 Locomotive Axle: Deflection and Stress at Center
2 1 0.00000 0.00000 0.00000 0.00000 0.00000 0.000703 1 0.00000 0.01037 0.00000 0.00000 0.00000 0.000004 1 0.00000 0.00000 0.00000 0.00000 0.00000 -0.000705 1 0.00000 -0.01138 0.00000 0.00000 0.00000 -0.00086
************** END OF LATEST ANALYSIS RESULT **************20. FINISH
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:45:25 ****
:A LOCOMOTIVE AXLE -- PAGE NO. 5* FILE: VER05.STD
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
:A LOCOMOTIVE AXLE -- PAGE NO. 6* FILE: VER05.STD
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb
22 — STAAD.Pro
5 Locomotive Axle: Deflection and Stress at Center
12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 23
5 Locomotive Axle: Deflection and Stress at Center
24 — STAAD.Pro
5 Locomotive Axle: Deflection and Stress at Center
NOTES
6 One-by-One Bay Plane FrameOBJECTIVETo find the maximum moment due to a uniform load on the horizontalmember in a 1x1 bay plane frame.
REFERENCEMcCormack, J. C., “Structural Analysis,” Intext Educational Publishers, 3rd
edition, 1975, page 383, example 22 - 5.
PROBLEMDetermine the maximum moment in the frame.
1x1 bay plane frame
GIVENE and I same for all members.
COMPARISON
Result Type TheorySTAADBasicSolver
STAADAdvancedSolver
MMax 44.40 44.44 44.44
Moment, Kip-ft
Verification Manual — 25
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:45:30 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD PLANE :A 1X1 BAY PLANE FRAMEINPUT FILE: ver06.STD
2. * FILE VER06.STD3. *4. * REFERENCE: 'STRUCTURAL ANALYSIS' BY JACK C. MCCORMACK,5. * PAGE 383 EXAMPLE 22-5, PLANE FRAME WITH NO SIDESWAY6. * ANSWER - MAX BENDING = 44.4 FT-KIP7. *8. UNIT FT KIP9. JOINT COORD10. 1 0. 0. ; 2 0. 20. ; 3 20. 20. ; 4 20. 0.11. MEMB INCI ; 1 1 2 312. MEMB PROP ; 1 2 3 PRIS AX 1. IZ 0.0513. CONSTANT ; E 4132E3 ALL14. SUPPORT ; 1 4 FIXED15. LOADING 1 ; MEMB LOAD ; 2 UNI Y -2.016. PERFORM ANALYSIS
**WARNING** THE POISSON'S RATIO HAS NOT BEEN SPECIFIED FOR ONE OR MOREMEMBERS/ELEMENTS/SOLIDS. THE DEFAULT VALUE HAS BEEN SET FOR THE SAME.P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 4/ 3/ 2SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 1/ 1/ 6 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 6SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159655.3 MB17. PRINT FORCES
FORCES:A 1X1 BAY PLANE FRAME -- PAGE NO. 2* FILE VER06.STDMEMBER END FORCES STRUCTURE TYPE = PLANE-----------------ALL UNITS ARE -- KIP FEET (LOCAL )MEMBER LOAD JT AXIAL SHEAR-Y SHEAR-Z TORSION MOM-Y MOM-Z
1 1 1 20.00 -3.33 0.00 0.00 0.00 -22.212 -20.00 3.33 0.00 0.00 0.00 -44.44
2 1 2 3.33 20.00 0.00 0.00 0.00 44.443 -3.33 20.00 0.00 0.00 0.00 -44.44
3 1 3 20.00 3.33 0.00 0.00 0.00 44.444 -20.00 -3.33 0.00 0.00 0.00 22.21
************** END OF LATEST ANALYSIS RESULT **************18. FINISH
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:45:30 ****
:A 1X1 BAY PLANE FRAME -- PAGE NO. 3* FILE VER06.STD
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 *
26 — STAAD.Pro
6 One-by-One Bay Plane Frame
* SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
:A 1X1 BAY PLANE FRAME -- PAGE NO. 4* FILE VER06.STD
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 27
6 One-by-One Bay Plane Frame
28 — STAAD.Pro
6 One-by-One Bay Plane Frame
NOTES
7 Plane Truss: Joint Deflection Due to Joint LoadsOBJECTIVETo find the joint deflection due to joint loads in a plane truss.
REFERENCEMcCormack, J. C., “Structural Analysis,” Intext Educational Publishers, 3rd
edition, 1975, page 271, example 18 - 2.
PROBLEMDetermine the vertical deflection at point 5 of plane truss structure shown inthe figure.
GIVENP = 20 kip
Truss width = 4 spaces at 15 ft = 60 ft
Truss height = 15 ft
AX 1-4 = 1 in2, AX 5-6 = 2 in2, AX 7-8 =1.5 in
2,
AX 9-11B = 3 in2P, AX 12-13 = 4 in
2
E = 30E3 ksi
Verification Manual — 29
COMPARISON
Result Type Theory STAADBasic Solver
STAADAdvanced Solver
δ5 2.63 2.63 2.63
Deflection (δ), in.
30 — STAAD.Pro
7 Plane Truss: Joint Deflection Due to Joint Loads
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:45:35 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD TRUSS :A PLANE TRUSSINPUT FILE: ver07.STD
2. * FILE VER07.STD3. *4. * REFERENCE 'STRUCTURAL ANALYSIS' BY JACK MCCORMACK, PAGE 271,5. * EXAMPLE 18-2. ANSWER - Y-DISP AT JOINT 5 = 2.63 INCH6. *8. UNIT FT KIP9. JOINT COORD10. 1 0 0 0 5 60 0 011. 6 15. 7.5 ; 7 30. 15. ; 8 45. 7.512. SUPPORT13. 1 PINNED ; 3 FIXED BUT FX MZ14. MEMB INCI15. 1 2 6 ; 2 3 4 ; 3 4 8 ; 4 4 5 ; 5 1 216. 6 2 3 ; 7 3 6 ; 8 3 8 ; 9 3 717. 10 1 6 ; 11 5 8 ; 12 6 7 1318. UNIT INCH19. MEMB PROP20. 1 TO 4 PRI AX 1.021. 5 6 PRIS AX 2.22. 7 8 PRI AX 1.523. 9 10 11 PRI AX 3.24. 12 13 PRI AX 4.25. CONSTANT ; E 30E3 ALL26. LOAD 1 VERTICAL LOAD27. JOINT LOAD28. 2 4 5 FY -20.029. PERFORM ANALYSIS
**WARNING** THE POISSON'S RATIO HAS NOT BEEN SPECIFIED FOR ONE OR MOREMEMBERS/ELEMENTS/SOLIDS. THE DEFAULT VALUE HAS BEEN SET FOR THE SAME.
:A PLANE TRUSS -- PAGE NO. 2* FILE VER07.STD
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 8/ 13/ 2SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 5/ 5/ 11 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 13SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159654.3 MB30. PRINT DISPLACEMENTS LIST 5
DISPLACE LIST 5:A PLANE TRUSS -- PAGE NO. 3* FILE VER07.STDJOINT DISPLACEMENT (INCH RADIANS) STRUCTURE TYPE = TRUSS------------------
JOINT LOAD X-TRANS Y-TRANS Z-TRANS X-ROTAN Y-ROTAN Z-ROTAN5 1 -0.72000 -2.63033 0.00000 0.00000 0.00000 0.00000
************** END OF LATEST ANALYSIS RESULT **************31. FINISH
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:45:35 ****
:A PLANE TRUSS -- PAGE NO. 4* FILE VER07.STD
Verification Manual — 31
7 Plane Truss: Joint Deflection Due to Joint Loads
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
:A PLANE TRUSS -- PAGE NO. 5* FILE VER07.STD
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb
32 — STAAD.Pro
7 Plane Truss: Joint Deflection Due to Joint Loads
11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 33
7 Plane Truss: Joint Deflection Due to Joint Loads
34 — STAAD.Pro
7 Plane Truss: Joint Deflection Due to Joint Loads
NOTES
8 One-by-One Bay Plane FrameOBJECTIVETo find the maximum moment due to a concentrated load on the horizontalmember in a 1x1 bay plane frame.
REFERENCEMcCormack, J. C., “Structural Analysis,” Intext Educational Publishers, 3rd
edition, 1975, page 385, problem 22 - 6.
PROBLEMDetermine the maximum moment in the structure.
P = 30 kip
H1 = 20 ft, H3 = 30 ft
L = 30 ft, with P occurring at 10 ft from Leg #1
GIVENE and I same for all members
Verification Manual — 35
COMPARISON
Result Type Theory STAADBasic Solver
STAADAdvanced Solver
MMax 69.40 69.44 69.44
Moment, Kip-ft
36 — STAAD.Pro
8 One-by-One Bay Plane Frame
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:45:40 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD PLANE :A 1X1 BAY PLANE FRAMEINPUT FILE: ver08.STD
2. * FILE VER08.STD3. *4. * REFERENCE: 'STRUCTURAL ANALYSIS' BY JACK MCCORMACK,5. * PAGE 385 PROB 22-6.6. * ANSWER - MAX BENDING IN MEMB 1 = 69.4 KIP-FT7. *8. UNIT FT KIP9. JOINT COORD10. 1 0. 10. ; 2 0 30 ; 3 30 30 ; 4 30 011. SUPPORT ; 1 4 FIXED12. MEMB INCI13. 1 1 2 314. MEMB PROP ; 1 2 3 TAB ST W12X2615. CONSTANT ; E 4176E316. LOAD 1 VERTICAL LOAD17. MEMBER LOAD18. 2 CON Y -30. 10.19. PERFORM ANALYSIS
**WARNING** THE POISSON'S RATIO HAS NOT BEEN SPECIFIED FOR ONE OR MOREMEMBERS/ELEMENTS/SOLIDS. THE DEFAULT VALUE HAS BEEN SET FOR THE SAME.P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 4/ 3/ 2SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 1/ 1/ 6 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 6SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159659.3 MB:A 1X1 BAY PLANE FRAME -- PAGE NO. 2* FILE VER08.STD20. PRINT FORCES
FORCES:A 1X1 BAY PLANE FRAME -- PAGE NO. 3* FILE VER08.STDMEMBER END FORCES STRUCTURE TYPE = PLANE-----------------ALL UNITS ARE -- KIP FEET (LOCAL )MEMBER LOAD JT AXIAL SHEAR-Y SHEAR-Z TORSION MOM-Y MOM-Z
1 1 1 20.09 -3.74 0.00 0.00 0.00 -5.342 -20.09 3.74 0.00 0.00 0.00 -69.44
2 1 2 3.74 20.09 0.00 0.00 0.00 69.443 -3.74 9.91 0.00 0.00 0.00 -66.66
3 1 3 9.91 3.74 0.00 0.00 0.00 66.664 -9.91 -3.74 0.00 0.00 0.00 45.51
************** END OF LATEST ANALYSIS RESULT **************21. FINISH
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:45:40 ****
:A 1X1 BAY PLANE FRAME -- PAGE NO. 4* FILE VER08.STD
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations *
Verification Manual — 37
8 One-by-One Bay Plane Frame
* ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
:A 1X1 BAY PLANE FRAME -- PAGE NO. 5* FILE VER08.STD
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb
38 — STAAD.Pro
8 One-by-One Bay Plane Frame
11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 39
8 One-by-One Bay Plane Frame
40 — STAAD.Pro
8 One-by-One Bay Plane Frame
NOTES
9 One-by-Two Bay Plane Frame: Lateral LoadsOBJECTIVETo find the maximum moment due to lateral joint loads in a 1x2 bay planeframe.
REFERENCEMcCormack, J. C., “Structural Analysis,” Intext Educational Publishers, 3rd
edition, 1975, page 388, example 22 - 7.
PROBLEMDetermine the maximum moment in the frame.
GIVENL = 20 ft
H3 = 20 kip, H5 = 10 kip
E and I same for all members.
Verification Manual — 41
COMPARISON
Result Type Theory STAADBasic Solver
STAADAdvanced Solver
MMax 176.40 178.01 178.01
Moment, Kip-ft
42 — STAAD.Pro
9 One-by-Two Bay Plane Frame: Lateral Loads
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:45:47 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD PLANE :A 1X2 BAY PLANE FRAMEINPUT FILE: ver09.STD
2. * FILE: VER09.STD3. *4. * REFERENCE: 'STRUCTURAL ANALYSIS' BY JACK MCCORMACK,5. * PAGE 388, PROB 22-7.6. * ANSWER - MAX MOM IN MEMB 1 = 176.4 K-F7. *8. UNIT FT KIP9. JOINT COORD10. 1 0 0 0 5 0 40 0 2 ; 2 20 0 0 6 20 40 0 211. SUPPORT ; 1 2 FIXED12. MEMB INCI13. 1 1 3 2 ; 3 3 5 4 ; 5 3 4 ; 6 5 614. MEMB PROP15. 1 TO 6 PRI AX .2 IZ .116. CONSTANT ; E 4176E317. LOAD 1 HORIZONTAL LOAD18. JOINT LOAD19. 3 FX 20 ; 5 FX 1020. PERFORM ANALYS
**WARNING** THE POISSON'S RATIO HAS NOT BEEN SPECIFIED FOR ONE OR MOREMEMBERS/ELEMENTS/SOLIDS. THE DEFAULT VALUE HAS BEEN SET FOR THE SAME.P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 6/ 6/ 2SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 3/ 3/ 9 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 12SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159659.3 MB:A 1X2 BAY PLANE FRAME -- PAGE NO. 2* FILE: VER09.STD21. PRINT FORCES
FORCES:A 1X2 BAY PLANE FRAME -- PAGE NO. 3* FILE: VER09.STDMEMBER END FORCES STRUCTURE TYPE = PLANE-----------------ALL UNITS ARE -- KIP FEET (LOCAL )MEMBER LOAD JT AXIAL SHEAR-Y SHEAR-Z TORSION MOM-Y MOM-Z
1 1 1 -22.26 15.06 0.00 0.00 0.00 178.013 22.26 -15.06 0.00 0.00 0.00 123.16
2 1 2 22.26 14.94 0.00 0.00 0.00 176.734 -22.26 -14.94 0.00 0.00 0.00 122.10
3 1 3 -6.51 4.97 0.00 0.00 0.00 34.495 6.51 -4.97 0.00 0.00 0.00 64.93
4 1 4 6.51 5.03 0.00 0.00 0.00 35.346 -6.51 -5.03 0.00 0.00 0.00 65.24
5 1 3 9.91 -15.75 0.00 0.00 0.00 -157.654 -9.91 15.75 0.00 0.00 0.00 -157.44
6 1 5 5.03 -6.51 0.00 0.00 0.00 -64.936 -5.03 6.51 0.00 0.00 0.00 -65.24
************** END OF LATEST ANALYSIS RESULT **************22. FINISH
Verification Manual — 43
9 One-by-Two Bay Plane Frame: Lateral Loads
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:45:47 ****
:A 1X2 BAY PLANE FRAME -- PAGE NO. 4* FILE: VER09.STD
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
:A 1X2 BAY PLANE FRAME -- PAGE NO. 5* FILE: VER09.STD
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb
44 — STAAD.Pro
9 One-by-Two Bay Plane Frame: Lateral Loads
08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
NOTES
Verification Manual — 45
9 One-by-Two Bay Plane Frame: Lateral Loads
46 — STAAD.Pro
9 One-by-Two Bay Plane Frame: Lateral Loads
NOTES
10 Space FrameOBJECTIVETo find the maximum axial force and moment due to load and moment appliedat a joint in a Space frame.
REFERENCEWeaver Jr., W., “Computer Programs for Structural Analysis,” page 146,problem 8.
PROBLEMDetermine the maximum axial force and moment in the space structure.
GIVENF = 2 kip, P = 1 kip, M = 120 kip*in.
L = 120 in.
E = 30E3 ksi,
AX = 11 in2
IX = 83 in4
IY = 56 in4
IZ = 56 in4
Verification Manual — 47
COMPARISON
Result Type Theory STAADBasic Solver
STAADAdvanced Solver
FMax 1.47 1.47 1.47
MY,Max 84.04 84.04 84.04
MZ,Max 95.319 96.120 96.120
Max. Force (F), kips and Max. Moment (M), kip-in.
48 — STAAD.Pro
10 Space Frame
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:45:52 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD SPACE :A SPACE FRAMEINPUT FILE: ver10.STD
2. * FILE VER10.STD3. *4. * REFERENCE 'COMPUTER PROGRAMS FOR STRUCTURAL ANALYSIS'5. * BY WILLIAM WEAVER JR. PAGE 146 STRUCTURE NO. 8.6. * ANSWER - MAX AXIAL FORCE= 1.47 (MEMB 3)7. * MAX BEND-Y= 84.04 (MEMB 3), BEND-Z= 95.32 (MEMB 3)8. *9. * STAAD VERIFICATION PROB NO. 1010. *11. UNIT INCH KIP12. JOINT COORD13. 1 0 120 0 ; 2 240 120 014. 3 0 0 0 ; 4 360 0 12015. SUPPORT16. 3 4 FIXED17. MEMB INCI18. 1 1 2 ; 2 3 1 ; 3 2 419. MEMB PROP20. 1 2 3 PRIS AX 11. IX 83. IY 56. IZ 5621. CONSTANT ; E 30000. ALL22. POISS .25 ALL23. LOAD 1 JOINT LOAD24. JOINT LOAD25. 1 FX 2. ; 2 FY -1. ; 2 MZ -120.26. PERFORM ANALYSIS
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 4/ 3/ 2:A SPACE FRAME -- PAGE NO. 2* FILE VER10.STD
SOLVER USED IS THE OUT-OF-CORE BASIC SOLVERORIGINAL/FINAL BAND-WIDTH= 2/ 2/ 12 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 12SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159659.3 MB27. PRINT ANALYSIS RESULT
ANALYSIS RESULT:A SPACE FRAME -- PAGE NO. 3* FILE VER10.STDJOINT DISPLACEMENT (INCH RADIANS) STRUCTURE TYPE = SPACE------------------
JOINT LOAD X-TRANS Y-TRANS Z-TRANS X-ROTAN Y-ROTAN Z-ROTAN1 1 0.22267 0.00016 -0.17182 -0.00255 0.00217 -0.002132 1 0.22202 -0.48119 -0.70161 -0.00802 0.00101 -0.004353 1 0.00000 0.00000 0.00000 0.00000 0.00000 0.000004 1 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000
:A SPACE FRAME -- PAGE NO. 4* FILE VER10.STDSUPPORT REACTIONS -UNIT KIP INCH STRUCTURE TYPE = SPACE-----------------
JOINT LOAD FORCE-X FORCE-Y FORCE-Z MOM-X MOM-Y MOM Z3 1 -1.10 -0.43 0.22 48.78 -17.97 96.124 1 -0.90 1.43 -0.22 123.08 47.25 -11.72
Verification Manual — 49
10 Space Frame
:A SPACE FRAME -- PAGE NO. 5* FILE VER10.STDMEMBER END FORCES STRUCTURE TYPE = SPACE-----------------ALL UNITS ARE -- KIP INCH (LOCAL )MEMBER LOAD JT AXIAL SHEAR-Y SHEAR-Z TORSION MOM-Y MOM-Z
1 1 1 0.90 -0.43 0.22 22.71 -17.97 -36.372 -0.90 0.43 -0.22 -22.71 -34.18 -67.36
2 1 3 -0.43 1.10 0.22 -17.97 -48.78 96.121 0.43 -1.10 -0.22 17.97 22.71 36.37
3 1 2 1.47 -0.71 -0.48 -37.02 15.69 -53.284 -1.47 0.71 0.48 37.02 84.04 -95.32
************** END OF LATEST ANALYSIS RESULT **************28. FINISH
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:45:52 ****
:A SPACE FRAME -- PAGE NO. 6* FILE VER10.STD
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
:A SPACE FRAME -- PAGE NO. 7* FILE VER10.STD
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb
50 — STAAD.Pro
10 Space Frame
09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 51
10 Space Frame
52 — STAAD.Pro
10 Space Frame
NOTES
11 Temperature Load on Rigid Bar Suspended byWires of Different Materials
OBJECTIVEA rigid bar is suspended by two copper wires and one steel wire. Find thestresses in the wires due to a rise in temperature.
REFERENCETimoshenko, S., “Strength of Materials,” Part 1, D. Van Nostrand Co., 3rd
edition, 1956, page 30, problem 9.
PROBLEMAssuming the horizontal member to be very rigid, determine the stresses inthe copper and steel wires if the temperature rise is 10º F.
GIVENEsteel = 30E6 psi, Ecopper = 16E6 psi
αsteel = 70E-7 in/in/°F, αcopper = 92E-7 in/in/°F
AX = 0.1 in2
w = 400 lbf/in.
L = 20 in.
d= 5 in.
Verification Manual — 53
Hint: When modeling, assume a large moment of inertia for the horizontalrigid member and distribute of the concentrated load as uniform.
COMPARISON
Result Type TheorySTAADBasicSolver
STAADAdvancedSolver
σSteel 19695 19698 19698
σCopper 10152 10151 10151
Stress (σ), psi
54 — STAAD.Pro
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:45:57 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD PLANE :A RIGID BAR SUSPENDED BY TWO COPPER WIRES AND A STEEL WIREINPUT FILE: ver11.STD
2. * FILE: VER11.STD3. *4. * REFERENCE: 'STRENGTH OF MATERIALS', TIMOSHENKO (PART 1),5. * PAGE 30, PROB 9.6. * THE ANSWERS ARE 19700 PSI AND 10200 PSI.7. *8. UNIT INCH POUND9. JOINT COORD10. 1 0. 20. ; 2 5. 20. ; 3 10. 20.11. 4 0. 0. ; 5 5. 0. ; 6 10. 0.12. MEMB INCI13. 1 1 4 3 ; 4 4 5 514. MEMB PROP15. 1 2 3 PRI AX 0.1 ; 4 5 PRI AX 1. IZ 100.16. CONSTANT ; E 30E6 MEMB 2 4 517. E 16E6 MEMB 1 318. ALPHA 92E-7 MEMB 1 3 ; ALPHA 70E-7 MEMB 219. MEMB TRUSS ; 1 2 320. SUPPORT ; 1 2 3 PINNED21. LOADING 1 VERT LOAD + TEMP LOAD22. MEMB LOAD ;4 5 UNI Y -400.23. TEMP LOAD ; 1 2 3 TEMP 10.24. PERFORM ANALYSIS
**WARNING** THE POISSON'S RATIO HAS NOT BEEN SPECIFIED FOR ONE OR MOREMEMBERS/ELEMENTS/SOLIDS. THE DEFAULT VALUE HAS BEEN SET FOR THE SAME.
:A RIGID BAR SUSPENDED BY TWO COPPER WIRES AND A STEEL W -- PAGE NO. 2* FILE: VER11.STD
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 6/ 5/ 3SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 3/ 3/ 10 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 12SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159659.3 MBZERO STIFFNESS IN DIRECTION 6 AT JOINT 1 EQN.NO. 1
LOADS APPLIED OR DISTRIBUTED HERE FROM ELEMENTS WILL BE IGNORED.THIS MAY BE DUE TO ALL MEMBERS AT THIS JOINT BEING RELEASED OREFFECTIVELY RELEASED IN THIS DIRECTION.
ZERO STIFFNESS IN DIRECTION 6 AT JOINT 2 EQN.NO. 2ZERO STIFFNESS IN DIRECTION 6 AT JOINT 3 EQN.NO. 3
***WARNING - INSTABILITY AT JOINT 6 DIRECTION = FXPROBABLE CAUSE SINGULAR-ADDING WEAK SPRINGK-MATRIX DIAG= 6.0000004E+03 L-MATRIX DIAG= 0.0000000E+00 EQN NO 10***NOTE - VERY WEAK SPRING ADDED FOR STABILITY**NOTE** STAAD DETECTS INSTABILITIES AS EXCESSIVE LOSS OF SIGNIFICANT DIGITS
DURING DECOMPOSITION. WHEN A DECOMPOSED DIAGONAL IS LESS THAN THEBUILT-IN REDUCTION FACTOR TIMES THE ORIGINAL STIFFNESS MATRIX DIAGONAL,STAAD PRINTS A SINGULARITY NOTICE. THE BUILT-IN REDUCTION FACTORIS 1.000E-09THE ABOVE CONDITIONS COULD ALSO BE CAUSED BY VERY STIFF OR VERY WEAKELEMENTS AS WELL AS TRUE SINGULARITIES.
25. PRINT STRESSES LIST 1 2 3
Verification Manual — 55
STRESSES LIST 1 2:A RIGID BAR SUSPENDED BY TWO COPPER WIRES AND A STEEL W -- PAGE NO. 3* FILE: VER11.STD
MEMBER STRESSES---------------ALL UNITS ARE POUN/SQ INCHMEMB LD SECT AXIAL BEND-Y BEND-Z COMBINED SHEAR-Y SHEAR-Z
1 1 .0 10150.8 T 0.0 0.0 10150.8 0.0 0.01.00 10150.8 T 0.0 0.0 10150.8 0.0 0.0
2 1 .0 19698.3 T 0.0 0.0 19698.3 0.0 0.01.00 19698.3 T 0.0 0.0 19698.3 0.0 0.0
3 1 .0 10150.8 T 0.0 0.0 10150.8 0.0 0.01.00 10150.8 T 0.0 0.0 10150.8 0.0 0.0
************** END OF LATEST ANALYSIS RESULT **************26. FINISH
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:45:57 ****
:A RIGID BAR SUSPENDED BY TWO COPPER WIRES AND A STEEL W -- PAGE NO. 4* FILE: VER11.STD
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
:A RIGID BAR SUSPENDED BY TWO COPPER WIRES AND A STEEL W -- PAGE NO. 5* FILE: VER11.STD
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb
56 — STAAD.Pro
02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 57
58 — STAAD.Pro
NOTES
12 Plane Truss: Joint Deflection and Member StressDue to a Joint Load
OBJECTIVETo find the joint deflection and member stress due to a joint load in a planetruss.
REFERENCETimoshenko, S., “Strength of Materials,” Part 1, D. Van Nostrand Co., Inc., 3rd
edition, 1956, page 10, problem 2.
PROBLEMDetermine the vertical deflection at point A and the member stresses
GIVENAX = 0.5 in
2
E = 30E6 psi
P = 5000 lbf
L = 180 in.
angle = 30°
Verification Manual — 59
COMPARISON
Result Type Theory STAADBasic Solver
STAADAdvanced Solver
σA 10000. 10000. 10000.
δA 0.12 0.12 0.12
Stress (σ), psi, and Deflection (δ), in.
60 — STAAD.Pro
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:46: 2 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD TRUSS :A PLANE TRUSSINPUT FILE: ver12.STD
2. * FILE VER12.STD3. *4. * REFERENCE: 'STRENGTH OF MATERIALS', (PART 1) BY TIMOSHENKO,5. * PAGE 10, PROB 2.6. *7. * THE ANSWER IN THE BOOK , DEFLECTION = 0.12 INCH8. * AND STRESS =10000 PSI9. *10. UNIT INCH POUND11. JOINT COORD12. 1 0. 0. ; 2 155.88457 -90. ; 3 311.76914 0.13. SUPPORT ; 1 3 PINNED14. MEMB INCI ; 1 1 2 215. MEMB PROP16. 1 2 PRIS AX 0.517. CONSTANT ; E 30E618. LOAD 1 VERT LOAD19. JOINT LOAD ; 2 FY -5000.20. PERFORM ANALYSIS
**WARNING** THE POISSON'S RATIO HAS NOT BEEN SPECIFIED FOR ONE OR MOREMEMBERS/ELEMENTS/SOLIDS. THE DEFAULT VALUE HAS BEEN SET FOR THE SAME.P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 3/ 2/ 2SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 1/ 1/ 2 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 2SIZE OF STIFFNESS MATRIX = 0 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159659.3 MB:A PLANE TRUSS -- PAGE NO. 2* FILE VER12.STD21. PRINT DISPLACEMENTS LIST 2
DISPLACE LIST 2:A PLANE TRUSS -- PAGE NO. 3* FILE VER12.STDJOINT DISPLACEMENT (INCH RADIANS) STRUCTURE TYPE = TRUSS------------------
JOINT LOAD X-TRANS Y-TRANS Z-TRANS X-ROTAN Y-ROTAN Z-ROTAN2 1 0.00000 -0.12000 0.00000 0.00000 0.00000 0.00000
************** END OF LATEST ANALYSIS RESULT **************22. PRINT STRESSES
STRESSES:A PLANE TRUSS -- PAGE NO. 4* FILE VER12.STD
MEMBER STRESSES---------------ALL UNITS ARE POUN/SQ INCHMEMB LD SECT AXIAL BEND-Y BEND-Z COMBINED SHEAR-Y SHEAR-Z
1 1 .0 10000.0 T 0.0 0.0 10000.0 0.0 0.01.00 10000.0 T 0.0 0.0 10000.0 0.0 0.0
2 1 .0 10000.0 T 0.0 0.0 10000.0 0.0 0.01.00 10000.0 T 0.0 0.0 10000.0 0.0 0.0
************** END OF LATEST ANALYSIS RESULT **************
Verification Manual — 61
23. FINISH*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:46: 2 ****
:A PLANE TRUSS -- PAGE NO. 5* FILE VER12.STD
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
:A PLANE TRUSS -- PAGE NO. 6* FILE VER12.STD
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb
62 — STAAD.Pro
11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 63
64 — STAAD.Pro
NOTES
13 Steel Design per 1989 AISC CodeTYPESteel Design.
REFERENCEAttached step by step hand calculation as per 1989 AISC ASD code. NinthEdition.
PROBLEMDetermine the allowable stresses (per 1989 AISC code) for the members of thestructure as shown in figure. Also, perform a code check for these membersbased on the results of the analysis.
Steel braced frame frame
Members 1, 2 = W12X26, Members 3, 4 = W14X43
Members 5, 6, 7 = W16X36, Memb 8= L40404,Memb 9 = L50506
F = 15 kip (wind load)
w = 2 kip/ft (dead load + liveload)
Verification Manual — 65
COMPARISON
Member No. 1 2 3 4 5 6 7 8 9
Hand Calculation 1.1576 .914 1.117 0.936 .579 1.119 .668 1.024 .823
STAAD Basic Solver 1.157 .916 1.117 0.936 .582 1.120 .668 1.024 .823
STAAD AdvancedSolver
1.157 .916 1.117 0.936 .582 1.120 .668 1.024 .823
Governing ratios for the members
HAND CALCULATIONManual / Code refers to AISC Manual of Steel Construction, Allowable StressDesign, ninth edition.
Steel Design -
UMember 1U
Size W 12X26, L = 10 ft., a = 7.65 in2, Sz = 33.39 in3
From clause F1-2, page 5-45 of Manual, Lc = 6.85 ft.
From observation Load case 1 will govern,
Fx = 25.0 kip (compression), Mz = 56.5 k-ft
Area of compressive flange = 6.49*0.38 = 2.466 sq.in.
Allowable bending stress = Fb = U12. x 1000 x 1.0U = 20.1817 ksi [ClauseF1-8
10 x 12 x (12.22/2.466)page 5-47of Manual]
(kl/r)y = 120/1.5038 = 79.8, so Fa = 15.38 ksi(Table C-36, page 3-16 ofmanual)
fa = 25./7.65 = 3.268, fb = 56.5 x 12/33.39 = 20.31 ksi
(kl/r)z = 120/5.1639 = 23.238, so F’ez = 276.54 ksi
Try formula H1-1, page 5-54 of Manual
U3.268U + U 0.85 x 20.31 U = 1.078
15.38 (1-3.268/276.54) x 20.1817
Try formula H1-2, page 5-54 of Manual.
U 3.268 U + U 20.31 U = 1.1576
0.6 x 36 20.1817
66 — STAAD.Pro
13 Steel Design per 1989 AISC Code
Therefore formula H1-2 governs and ratio = 1.1576
UMember 2U
Size W12X26, L = 5 ft., a = 7.65 in2, Sz = 33.39 in3
From observation load case 1 will govern,
Fx = 8.71 kip (compression), Mz = 56.50 k-ft
Since L is less than Lc (6.85ft)[Clause F1-2
page 5-45 of Manual]
Fb = 0.66x36 = 23.76 ksi(Clause F1-1
page 5-45 of Manual)
(kl/r)y = 60/1.5038 = 39.90, so Fa = 19.19 ksiTable C-36
page 3-16 of Manual
fa = 8.71/7.65 = 1.1385, fb = 56.5 x 12/33.39 = 20.31 ksi
Since fa/Fa less than 0.15, apply formula H1-3, page 5-54 of Manual
U1.1385U + U20.31U = .0593 + .8548 = 0.9141
19.19 23.76
UMember 3U
Size W14X43, L = 11ft., a = 12.6 in2, Sz = 62.7 in3
From observation load case 3 will govern,
Fx = 25.5 kip (compression), Mz = 112.173 k-ft
Refering to clause F1-2, page 5-45 of Manual.
Lc = 8.4 ft. Therefore, Fb = 0.6 x 36 = 21.6 ksi
(kl/r)y = 132/1.8941 = 69.69, so Fa = 16.46 ksi[Table C-36
page 3-16 of Manual]
fa = 25.5/12.6 = 2.024, fb = 112.173 x 12/62.66 = 21.48 ksi
since fa/Fa less than 0.15, use formula H1-3, page 5-54 of Manual
U2.024U + U21.48U = 0.123 + 0.994 = 1.117
16.46 21.6
UMember 4U
Size W14X43, L = 4ft, a = 12.6 in2, Sz = 62.7 in3
From observation, load case 3 will govern,
Fx = 8.75 kip (tension), Mz = 112.173 k-ft
Verification Manual — 67
13 Steel Design per 1989 AISC Code
Lc = 8.4 ft
Since L is less than Lc
Fb = 0.66 x 36 = 23.76 ksi[Clause F1-1
page 5-45 of Manual]
fa = 8.75/12.6 = 0.694, fb = 112.73x12/62.66 = 21.48 ksi
Combined tension and bending, use formula H 2-1, page 5-55 of Manual.
U 0.694 U + U 21.48U = 0.032 + 0.904 = 0.936
0.6 x 36 23.76
UMember 5U
Size W16X36, L = 5ft, a = 10.6 in2, Sz = 56.49 in3
Lc=7.37 ft,[Clause F1-2
page 5-45 of Manual.
From observation, load case 3 will govern.
Fx = 14.02 kip (compression), Mz =57.04 k-ft
Since L is less than Lc,
Fb = 0.66 x 36 = 23.76 ksi
(kl/r)y = 60./1.52 = 39.47, so Fa = 19.23 ksi[Table C-36
page 3-16 of Manual]
fa = 14.02/10.6 = 1.32, fb = 57.04 x 12/56.5 = 12.12 ksi
Since fa/Fa less than 0.15, use formula H1-3, page 5-54 of Manual
U1.32U + U12.12U = 0.069 + 0.510 = 0.579
19.23 23.76
UMember 6U
Size W16X36, L = 16ft, a = 10.6 in2, Sz = 56.49 in3
From observation, load case 1 will govern. Forces at midspan are
Fx = 5.65 kip (compression), Mz = 71.25 k-ft
From Chapter F of the AISC ASD 9PthP ed. specs., with Cb = 1.0,
sqrt(102,000Cb/Fy) =53.229
sqrt(510,000Cb/Fy) =119.02
L/rT = 192/1.79 = 107.26
53.229 < 107.26 < 119.02
Therefore Fb (as per F1-6, page 5-47 of Manual)
68 — STAAD.Pro
13 Steel Design per 1989 AISC Code
[(2/3) – 36*107.26*107.26/(1530,000)]*36 = 14.25 ksi
(Kl/r)y = 192/1.5203 = 126.29, so Fa = 9.36[Table C-36
page 3-16 of Manual]
fa = 5.65/10.6 = 0.533, fb = 71.25x12/56.49 = 15.14 ksi
Since fa/Fa less than 0.15 use formula [H1-3, page 5-54 of Manual]
0.533/9.36 + 15.14/14.25 = 0.057 + 1.062 = 1.119
UMember 7U
Size W16X36, L =4ft, a = 10.6in2, Sz =56.49in3
Lc = 7.37ft (Clause F1-2 page 5-45 of Manual)
From observation load case 3 will govern, Fx = 24.06 kip (tension), Mz = 62.96k-ft
From Clause F1-1, Fb = 0.66 Fy = 23.76 ksi = allowable compressive stress.
Since section is in tension, Fb = 0.60X36 = 21.60 Ksi [Clause F1-5, page5-45 ofManual].
Choosing the larger of above 2 values, Fb = 23.76 Ksi
fa = 24.06/10.6 = 2.2698, fb = 62.96X12/56.49 = 13.37
Since combined tension and bending, use formula H 2-1, page 5-55 of the AISCASD 9PthP ed. specs.
U 2.2698 U + U 13.37U = 0.105 + 0.5627 = 0.6677
0.6 x 36 23.76
UMember 8U
Size L4x4x1/4, L = 7.071 ft, a = 1.94 in2
From observation load case 1 will govern, Fx = 23.04 kip (Comp.)
Fa is computed as per page 5-310 of the AISC ASD 9PthP ed.specs.
Qs = 1.34 – 0.00447*(4/0.25)*sqrt(36) = 0.9108
Qa = 1.0, Q = Qs * Qa = 0.9108
Cc = sqrt(2.0*pi*pi*E/(Q*Fy)) =
sqrt(2.0*pi*pi*29000/(0.9108*36)) = 132.1241
Kl/r = U7.071 x 12U = 106.73 is less than Cc.
0.795
Hence, Fa = 11.6027 ksi (computed per equation 4-1)
Actual compressive stress fa = 23.04/1.94 = 11.876 ksi
Verification Manual — 69
13 Steel Design per 1989 AISC Code
Therefore, Ratio = fa/Fa = 11.876/11.602 = 1.024
UMember 9U
Size L5x5x3/8, L = 5.657 ft, a = 3.61 in2
From observation, load cUaUse 1 governs, Fx = 48.44 kip (Comp.)
Fa is computed as per page 5-310 of the AISC ASD 9PthP ed.specs.
Qs = 1.34 – 0.00447*(5/0.375)*sqrt(36) = 0.9824
Qa = 1.0, Q = Qs * Qa = 0.9824
Cc = sqrt(2.0*pi*pi*E/(Q*Fy)) =
sqrt(2.0*pi*pi*29000/(0.9824*36)) = 127.2238
(Kl/r)min = U5.657 x 12U = 68.57 is less than Cc.
0.99
Hence, Fa = 16.301 ksi (computed per equation 4-1)
Actual compressive stress fa = 48.44/3.61 = 13.418 ksi
Therefore Ratio = fa/Fa = 13.418/16.301 = 0.823
70 — STAAD.Pro
13 Steel Design per 1989 AISC Code
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:46:10 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD PLANE VERIFICATION PROBLEM NO 13INPUT FILE: ver13.STD
2. *3. * THIS DESIGN EXAMPLE IS VERIFIED BY HAND CALCULATION4. * FOLLOWING AISC-89 CODE.5. *6. UNIT FEET KIP7. JOINT COORD8. 1 0 0 ; 2 25 0 ; 3 0 10 ; 4 25 119. 5 0 15 ; 6 25 15 ; 7 5 15 ; 8 21 1510. MEMB INCI11. 1 1 3 ; 2 3 5 ; 3 2 4 ; 4 4 612. 5 5 7 ; 6 7 8 ; 7 8 6 ; 8 3 7 ; 9 4 813. MEMB PROP AMERICAN14. 1 2 TA ST W12X26 ; 3 4 TA ST W14X4315. 5 6 7 TA ST W16X36 ; 8 TA ST L40404 ; 9 TA ST L5050616. MEMB TRUSS ; 8 917. CONSTANT18. E 4176E3 ALL19. POISSON STEEL ALL20. SUPPORT ; 1 2 PINNED21. LOADING 1 DL + LL22. MEMB LOAD ; 5 6 7 UNI Y -2.023. LOADING 2 WIND FROM LEFT24. JOINT LOAD ; 5 FX 15.25. LOAD COMB 3 ; 1 0.75 2 0.7526. PERFORM ANALYSIS
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 8/ 9/ 2VERIFICATION PROBLEM NO 13 -- PAGE NO. 2*
SOLVER USED IS THE OUT-OF-CORE BASIC SOLVERORIGINAL/FINAL BAND-WIDTH= 4/ 4/ 15 DOFTOTAL PRIMARY LOAD CASES = 2, TOTAL DEGREES OF FREEDOM = 20SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159659.3 MB27. LOAD LIST 1 328. PRINT FORCES
FORCESVERIFICATION PROBLEM NO 13 -- PAGE NO. 3*MEMBER END FORCES STRUCTURE TYPE = PLANE-----------------ALL UNITS ARE -- KIP FEET (LOCAL )MEMBER LOAD JT AXIAL SHEAR-Y SHEAR-Z TORSION MOM-Y MOM-Z
1 1 1 25.00 -5.65 0.00 0.00 0.00 0.003 -25.00 5.65 0.00 0.00 0.00 -56.50
3 1 12.00 1.05 0.00 0.00 0.00 0.003 -12.00 -1.05 0.00 0.00 0.00 10.52
2 1 3 8.71 10.64 0.00 0.00 0.00 56.505 -8.71 -10.64 0.00 0.00 0.00 -3.29
3 3 15.83 -2.77 0.00 0.00 0.00 -10.525 -15.83 2.77 0.00 0.00 0.00 -3.34
3 1 2 25.00 5.65 0.00 0.00 0.00 0.00
Verification Manual — 71
13 Steel Design per 1989 AISC Code
4 -25.00 -5.65 0.00 0.00 0.00 62.153 2 25.50 10.20 0.00 0.00 0.00 0.00
4 -25.50 -10.20 0.00 0.00 0.00 112.174 1 4 6.50 -12.85 0.00 0.00 0.00 -62.15
6 -6.50 12.85 0.00 0.00 0.00 10.763 4 -8.75 -24.06 0.00 0.00 0.00 -112.17
6 8.75 24.06 0.00 0.00 0.00 15.955 1 5 -10.64 8.71 0.00 0.00 0.00 3.29
7 10.64 1.29 0.00 0.00 0.00 15.253 5 14.02 15.83 0.00 0.00 0.00 3.34
7 -14.02 -8.33 0.00 0.00 0.00 57.046 1 7 5.65 15.00 0.00 0.00 0.00 -15.25
8 -5.65 17.00 0.00 0.00 0.00 -0.753 7 10.20 4.50 0.00 0.00 0.00 -57.04
8 -10.20 19.50 0.00 0.00 0.00 -62.967 1 8 -12.85 1.50 0.00 0.00 0.00 0.75
6 12.85 6.50 0.00 0.00 0.00 -10.763 8 -24.06 14.75 0.00 0.00 0.00 62.96
6 24.06 -8.75 0.00 0.00 0.00 -15.958 1 3 23.04 0.00 0.00 0.00 0.00 0.00
7 -23.04 0.00 0.00 0.00 0.00 0.003 3 -5.41 0.00 0.00 0.00 0.00 0.00
7 5.41 0.00 0.00 0.00 0.00 0.009 1 4 26.16 0.00 0.00 0.00 0.00 0.00
8 -26.16 0.00 0.00 0.00 0.00 0.003 4 48.44 0.00 0.00 0.00 0.00 0.00
8 -48.44 0.00 0.00 0.00 0.00 0.00VERIFICATION PROBLEM NO 13 -- PAGE NO. 4*************** END OF LATEST ANALYSIS RESULT **************29. PARAMETER30. CODE AISC31. TRACK 1.0 ALL32. CHECK CODE ALL
STEEL DESIGNVERIFICATION PROBLEM NO 13 -- PAGE NO. 5*
STAAD.Pro CODE CHECKING - (AISC 9TH EDITION)***********************
ALL UNITS ARE - KIP FEET (UNLESS OTHERWISE NOTED)MEMBER TABLE RESULT/ CRITICAL COND/ RATIO/ LOADING/
FX MY MZ LOCATION=======================================================================* 1 ST W12X26 (AISC SECTIONS)
FAIL AISC- H1-2 1.157 125.00 C 0.00 56.50 10.00
-----------------------------------------------------------------------| MEM= 1, UNIT KIP-INCH, L= 120.0 AX= 7.65 SZ= 33.4 SY= 5.3|| KL/R-Y= 79.8 CB= 1.00 YLD= 36.00 ALLOWABLE STRESSES: FCZ= 20.18 || FTZ= 21.60 FCY= 27.00 FTY= 27.00 FC= 15.26 FT= 21.60 FV= 14.40 |-----------------------------------------------------------------------
2 ST W12X26 (AISC SECTIONS)PASS AISC- H1-3 0.916 1
8.71 C 0.00 56.50 0.00-----------------------------------------------------------------------| MEM= 2, UNIT KIP-INCH, L= 60.0 AX= 7.65 SZ= 33.4 SY= 5.3|| KL/R-Y= 39.9 CB= 1.00 YLD= 36.00 ALLOWABLE STRESSES: FCZ= 23.76 || FTZ= 23.76 FCY= 27.00 FTY= 27.00 FC= 18.61 FT= 21.60 FV= 14.40 |-----------------------------------------------------------------------* 3 ST W14X43 (AISC SECTIONS)
FAIL AISC- H1-3 1.117 325.50 C 0.00 -112.17 11.00
-----------------------------------------------------------------------| MEM= 3, UNIT KIP-INCH, L= 132.0 AX= 12.60 SZ= 62.7 SY= 11.3|| KL/R-Y= 69.7 CB= 1.00 YLD= 36.00 ALLOWABLE STRESSES: FCZ= 21.60 || FTZ= 21.60 FCY= 27.00 FTY= 27.00 FC= 16.46 FT= 21.60 FV= 14.40 |
72 — STAAD.Pro
13 Steel Design per 1989 AISC Code
-----------------------------------------------------------------------4 ST W14X43 (AISC SECTIONS)
PASS AISC- H2-1 0.936 38.75 T 0.00 -112.17 0.00
-----------------------------------------------------------------------| MEM= 4, UNIT KIP-INCH, L= 48.0 AX= 12.60 SZ= 62.7 SY= 11.3|| KL/R-Y= 25.3 CB= 1.00 YLD= 36.00 ALLOWABLE STRESSES: FCZ= 23.76 || FTZ= 23.76 FCY= 27.00 FTY= 27.00 FC= 20.26 FT= 21.60 FV= 14.40 |-----------------------------------------------------------------------
5 ST W16X36 (AISC SECTIONS)PASS AISC- H1-3 0.582 3
14.02 C 0.00 -57.04 5.00VERIFICATION PROBLEM NO 13 -- PAGE NO. 6*
ALL UNITS ARE - KIP FEET (UNLESS OTHERWISE NOTED)MEMBER TABLE RESULT/ CRITICAL COND/ RATIO/ LOADING/
FX MY MZ LOCATION=======================================================================-----------------------------------------------------------------------| MEM= 5, UNIT KIP-INCH, L= 60.0 AX= 10.60 SZ= 56.5 SY= 7.0|| KL/R-Y= 39.5 CB= 1.00 YLD= 36.00 ALLOWABLE STRESSES: FCZ= 23.76 || FTZ= 23.76 FCY= 27.00 FTY= 27.00 FC= 18.39 FT= 21.60 FV= 14.40 |-----------------------------------------------------------------------* 6 ST W16X36 (AISC SECTIONS)
FAIL AISC- H1-3 1.120 15.65 C 0.00 -71.25 8.00
-----------------------------------------------------------------------| MEM= 6, UNIT KIP-INCH, L= 192.0 AX= 10.60 SZ= 56.5 SY= 7.0|| KL/R-Y= 126.3 CB= 1.00 YLD= 36.00 ALLOWABLE STRESSES: FCZ= 14.24 || FTZ= 21.60 FCY= 27.00 FTY= 27.00 FC= 9.36 FT= 21.60 FV= 14.40 |-----------------------------------------------------------------------
7 ST W16X36 (AISC SECTIONS)PASS AISC- H2-1 0.668 3
24.06 T 0.00 62.96 0.00-----------------------------------------------------------------------| MEM= 7, UNIT KIP-INCH, L= 48.0 AX= 10.60 SZ= 56.5 SY= 7.0|| KL/R-Y= 31.6 CB= 1.00 YLD= 36.00 ALLOWABLE STRESSES: FCZ= 23.76 || FTZ= 23.76 FCY= 27.00 FTY= 27.00 FC= 18.87 FT= 21.60 FV= 14.40 |-----------------------------------------------------------------------* 8 ST L40404 (AISC SECTIONS)
FAIL AISC- H1-1 1.024 123.04 C 0.00 0.00 0.00
-----------------------------------------------------------------------| MEM= 8, UNIT KIP-INCH, L= 84.9 AX= 1.94 SZ= 0.8 SY= 1.7|| KL/R- = 106.7 CB= 0.00 YLD= 36.00 ALLOWABLE STRESSES: FCZ= 0.00 || FTZ= 0.00 FCY= 0.00 FTY= 0.00 FC= 11.60 FT= 21.60 FV= 0.00 |-----------------------------------------------------------------------
9 ST L50506 (AISC SECTIONS)PASS AISC- H1-1 0.823 3
48.44 C 0.00 0.00 0.00-----------------------------------------------------------------------| MEM= 9, UNIT KIP-INCH, L= 67.9 AX= 3.61 SZ= 1.8 SY= 3.9|| KL/R- = 69.0 CB= 0.00 YLD= 36.00 ALLOWABLE STRESSES: FCZ= 0.00 || FTZ= 0.00 FCY= 0.00 FTY= 0.00 FC= 16.30 FT= 21.60 FV= 0.00 |-----------------------------------------------------------------------VERIFICATION PROBLEM NO 13 -- PAGE NO. 7*33. FINISH
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:46:10 ****
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** *
Verification Manual — 73
13 Steel Design per 1989 AISC Code
* USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
VERIFICATION PROBLEM NO 13 -- PAGE NO. 8*
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb
74 — STAAD.Pro
13 Steel Design per 1989 AISC Code
-----------------------------------------------------------------------------------------
NOTES
Verification Manual — 75
13 Steel Design per 1989 AISC Code
76 — STAAD.Pro
13 Steel Design per 1989 AISC Code
NOTES
14 Concrete Design per ACI 318 CodeTYPEConcrete design as per ACI code.
REFERENCECRSI Handbook and Notes on ACI-318-99.
PROBLEMA plane frame is created with such loading as to create 138 Kip-Ft moment onbeam and 574 Kip of axial load coupled with above moment on column.
Concrete moment frame
GIVENSize of beam is 10 x 16 inch, column 14 x 16 inch.
P = 521.32 kip
w = 5.268 kip/ft
Verification Manual — 77
L = 20 ft, H = 15 ft
COMPARISON
Result TypeTheoryACINotes
TheoryCRSI Hand-
book
STAADBasicSolver
STAADAdvancedSolver
Area of Steel inbeam
2.78sq.in.
X 2.792 sq.in 2.792 sq.in
Area of Steel incolumn
X 4.01% 4.09%required
4.23%provided
4.09%required
4.23%provided
78 — STAAD.Pro
14 Concrete Design per ACI 318 Code
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:46:16 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD PLANE VERIFICATION FOR CONCRETE DESIGNINPUT FILE: ver14.STD
2. UNIT KIP FEET3. JOINT COORDINATES4. 1 0. 0. ; 2 0. 15. ; 3 20. 15. ; 4 20. 0.5. MEMBER INCIDENCE6. 1 1 2 ; 2 2 3 ; 3 3 47. UNIT INCH8. MEMBER PROPERTY9. 1 3 PRISMATIC YD 16. ZD 14.10. 2 PRISM YD 16. ZD 10.11. CONSTANTS12. E CONCRETE ALL13. POISSON CONCRETE ALL14. SUPPORT15. 1 4 FIXED16. UNIT FT17. LOADING 1 DEAD + LIVE18. JOINT LOAD19. 2 3 FY -521.3220. MEMBER LOAD21. 2 UNI GY -5.26822. PERFORM ANALYSIS
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 4/ 3/ 2SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 1/ 1/ 6 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 6SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159659.2 MBVERIFICATION FOR CONCRETE DESIGN -- PAGE NO. 223. PRINT MEMBER FORCES
MEMBER FORCESVERIFICATION FOR CONCRETE DESIGN -- PAGE NO. 3MEMBER END FORCES STRUCTURE TYPE = PLANE-----------------ALL UNITS ARE -- KIP FEET (LOCAL )MEMBER LOAD JT AXIAL SHEAR-Y SHEAR-Z TORSION MOM-Y MOM-Z
1 1 1 574.00 -13.69 0.00 0.00 0.00 -67.442 -574.00 13.69 0.00 0.00 0.00 -137.87
2 1 2 13.69 52.68 0.00 0.00 0.00 137.873 -13.69 52.68 0.00 0.00 0.00 -137.87
3 1 3 574.00 13.69 0.00 0.00 0.00 137.874 -574.00 -13.69 0.00 0.00 0.00 67.44
************** END OF LATEST ANALYSIS RESULT **************24. UNIT INCH25. START CONC DESIGN
CONCRETE DESIGN26. CODE ACI 199927. TRACK 1.0 MEMB 228. FYMAIN 60.0 ALL29. FC 4.0 ALL30. CLB 1.4375 ALL31. DESIGN BEAM 2
Verification Manual — 79
14 Concrete Design per ACI 318 Code
VERIFICATION FOR CONCRETE DESIGN -- PAGE NO. 4=====================================================================
BEAM NO. 2 DESIGN RESULTS - FLEXURE PER CODE ACI 318-99LEN - 20.00FT. FY - 60000. FC - 4000. SIZE - 10.00 X 16.00 INCHESLEVEL HEIGHT BAR INFO FROM TO ANCHOR
FT. IN. FT. IN. FT. IN. STA END_____________________________________________________________________1 0 + 2-5/8 2-NUM.10 0 + 0-0/0 20 + 0-0/0 YES YES
|----------------------------------------------------------------|| CRITICAL POS MOMENT= 125.53 KIP-FT AT 10.00 FT, LOAD 1|| REQD STEEL= 2.48 IN2, RHO=0.0185, RHOMX=0.0214 RHOMN=0.0033 || MAX/MIN/ACTUAL BAR SPACING= 10.16/ 2.54/ 4.73 INCH || REQD. DEVELOPMENT LENGTH = 48.52 INCH ||----------------------------------------------------------------|Cracked Moment of Inertia Iz at above location = 1837.17 inch^4
*** A SUITABLE BAR ARRANGEMENT COULD NOT BE DETERMINED.REQD. STEEL = 2.792 IN2, MAX. STEEL PERMISSIBLE = 2.873 IN2MAX NEG MOMENT = 137.87 KIP-FT, LOADING 1*** A SUITABLE BAR ARRANGEMENT COULD NOT BE DETERMINED.REQD. STEEL = 2.792 IN2, MAX. STEEL PERMISSIBLE = 2.873 IN2MAX NEG MOMENT = 137.87 KIP-FT, LOADING 1___ 2J____________________ 240.X 10.X 16_____________________ 3J____| || || || || 2#10H 3. 0.TO 240. |||=========================================================================||| ||___________________________________________________________________________|_________ _________ _________ _________ _________ _________| | | | | | | | | | | || | | | | | | | | | | || | | | | | | | | | | || | | | | | | | | | | || 2#10 | | 2#10 | | 2#10 | | 2#10 | | 2#10 | | 2#10 || OO | | OO | | OO | | OO | | OO | | OO || | | | | | | | | | | ||_________| |_________| |_________| |_________| |_________| |_________|********************END OF BEAM DESIGN**************************32. DESIGN COLUMN 1VERIFICATION FOR CONCRETE DESIGN -- PAGE NO. 5====================================================================
COLUMN NO. 1 DESIGN PER ACI 318-99 - AXIAL + BENDINGFY - 60000 FC - 4000 PSI, RECT SIZE - 14.00 X 16.00 INCHES, TIED
AREA OF STEEL REQUIRED = 9.164 SQ. IN.BAR CONFIGURATION REINF PCT. LOAD LOCATION PHI----------------------------------------------------------12 - NUMBER 8 4.232 1 END 0.700(PROVIDE EQUAL NUMBER OF BARS ON EACH FACE)TIE BAR NUMBER 4 SPACING 14.00 IN********************END OF COLUMN DESIGN RESULTS********************33. END CONC DESIGN34. FINISH
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:46:16 ****
VERIFICATION FOR CONCRETE DESIGN -- PAGE NO. 6************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 *
80 — STAAD.Pro
14 Concrete Design per ACI 318 Code
* EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
VERIFICATION FOR CONCRETE DESIGN -- PAGE NO. 7Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
NOTES
Verification Manual — 81
14 Concrete Design per ACI 318 Code
82 — STAAD.Pro
14 Concrete Design per ACI 318 Code
NOTES
15 Natural Modes of a Simple BeamPurposeCompare theoretical answers to the STAAD solution.
ReferenceTimoshenko, S., “Vibration Problems in Engineering”, Third Edition, D. VanNostrand Company, Inc., 1955, page 322
ProblemThe first five natural frequencies and the associated mode shapes are computedfor the flexural motion of a simply supported beam.
simple beam
Model
model
The simply supported beam is divided into twenty spanwise beam elements. Atnodes 1 and 21, all degrees of freedom except the rotation about the Z axis arerestrained. For the remaining nodes, only the translation along Y and the
Verification Manual — 83
rotation about Z are permitted. Both shear deformation and rotary inertiahave been excluded from the model. The mass matrix is a diagonal matrix.
Cross-section Properties
Rectangular Section: 1 inch Width x 2 inch Depth
Area = 2 square inches
where
a = 2
b = 1
J = 0.4578 inch4
I2 = 1x23/12 inch4
I3 = 2x13/12 inch4
Theoretical Results
The natural bending frequencies, for a uniform beam with hinged ends, aregiven by:
where
fn = natural frequency for mode n, in cycles per second
l = span of the beam
E = elastic modulus
I = cross-section moment of inertia
g = gravitational constant
A = cross-section area
γ = weight density
The parameters used in the frequency equation are:
l = 20 inches
E = 10x10P6Ppsi
84 — STAAD.Pro
15 Natural Modes of a Simple Beam
I = 0.6667 inches4
g = 386.4 inches per second2
A = 2.0 sq. inches
γ = 0.1 pounds per cubic inch
from which:
fn = n2x 445.685674
The table below shows the natural frequencies computed from the theoreticalequation and the subspace iteration method available within STAAD.Frequencies are in cycles per second.
Comparison
ModeNumber
TheoreticalFrequency
STAADBasicSolver
STAADAdvancedSolver
1 445.686 445.506 445.506
2 1782.74 1782.01 1782.01
3 4011.17 4009.41 4009.41
4 7130.97 7127.25 7127.25
5 11142.1 11134.25 11134.25
Input file
STAAD PLANE STAAD VER. PROB. 15
UNIT POUND INCH
JOINT COORD
1 0 0 0 21 20 0 0
MEMB INCI
1 1 2 20
MEMB PROP
1 TO 20 PRIS AX 2 IZ 0.6667
CONST
E 10E6 ALL
Verification Manual — 85
15 Natural Modes of a Simple Beam
POISSON 0.3 ALL
DENS 0.1 ALL
CUT OFF MODE SHAPE 5
SUPP
1 21 FIXED BUT MZ
2 TO 20 FIXED BUT FY MZ
LOAD 1
SELF X 1.0
SELF Y 1.0
MODAL CALC REQ
PERF ANALY
FINISH
86 — STAAD.Pro
15 Natural Modes of a Simple Beam
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:46:22 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD PLANE STAAD VER. PROB. 15INPUT FILE: ver15.STD
2. * NATURAL MODES OF A SIMPLE BEAM4. UNIT POUND INCH5. JOINT COORD6. 1 0 0 0 21 20 0 07. MEMB INCI8. 1 1 2 209. MEMB PROP10. 1 TO 20 PRIS AX 2 IZ 0.666711. CONST12. E 10E6 ALL13. POISSON 0.3 ALL14. DENS 0.1 ALL15. CUT OFF MODE SHAPE 516. SUPP17. 1 21 FIXED BUT MZ18. 2 TO 20 FIXED BUT FY MZ19. LOAD 120. SELF X 1.021. SELF Y 1.022. MODAL CALC REQ23. PERF ANALY
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 21/ 20/ 21SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 1/ 1/ 4 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 40SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159659.2 MBSTAAD VER. PROB. 15 -- PAGE NO. 2* NATURAL MODES OF A SIMPLE BEAM
NUMBER OF MODES REQUESTED = 5NUMBER OF EXISTING MASSES IN THE MODEL = 19NUMBER OF MODES THAT WILL BE USED = 5*** EIGENSOLUTION : SUBSPACE METHOD ***STAAD VER. PROB. 15 -- PAGE NO. 3* NATURAL MODES OF A SIMPLE BEAM
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC) ACCURACY1 445.506 0.00224 9.509E-162 1782.012 0.00056 1.934E-133 4009.410 0.00025 4.051E-114 7127.250 0.00014 1.334E-095 11134.253 0.00009 1.251E-08
STAAD VER. PROB. 15 -- PAGE NO. 4* NATURAL MODES OF A SIMPLE BEAMThe following Frequencies are estimates that were calculated. These are forinformation only and will not be used. Remaining values are either abovethe cut off mode/freq values or are of low accuracy. To use thesefrequencies, rerun with a higher cutoff mode (or mode + freq) value.
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC) ACCURACY6 16027.429 0.00006 2.582E-08
Verification Manual — 87
15 Natural Modes of a Simple Beam
7 21800.588 0.00005 5.322E-088 28441.877 0.00004 4.956E-069 35929.844 0.00003 6.604E-05
MODAL WEIGHT (MODAL MASS TIMES g) IN POUNMODE X Y Z
1 0.000000E+00 3.228953E+00 0.000000E+002 0.000000E+00 3.801267E-26 0.000000E+003 0.000000E+00 3.469944E-01 0.000000E+004 0.000000E+00 3.572514E-19 0.000000E+005 0.000000E+00 1.165685E-01 0.000000E+00
PARTICIPATION FACTORSMASS PARTICIPATION FACTORS IN PERCENT--------------------------------------
MODE X Y Z SUMM-X SUMM-Y SUMM-Z1 0.00 84.97 0.00 0.000 84.972 0.0002 0.00 0.00 0.00 0.000 84.972 0.0003 0.00 9.13 0.00 0.000 94.104 0.0004 0.00 0.00 0.00 0.000 94.104 0.0005 0.00 3.07 0.00 0.000 97.171 0.000
24. FINISHSTAAD VER. PROB. 15 -- PAGE NO. 5* NATURAL MODES OF A SIMPLE BEAM
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:46:22 ****
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
STAAD VER. PROB. 15 -- PAGE NO. 6* NATURAL MODES OF A SIMPLE BEAM
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb
88 — STAAD.Pro
15 Natural Modes of a Simple Beam
01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 89
15 Natural Modes of a Simple Beam
90 — STAAD.Pro
15 Natural Modes of a Simple Beam
NOTES
16 Natural Frequencies of a Circular PlatePurposeCompare theoretical answers to the STAAD solution.
ReferenceBlevins, Robert D., “Formulas for Natural Frequency and Mode Shape,” VanNostrand Reinhold Company, 1979, Page 240.
ProblemA flat circular plate is simply supported around the entire perimeter. Thefirst six modes and their associated natural frequencies are to be computedusing the subspace iteration method offered by STAAD. This problemdemonstrates that the natural frequencies of an axi-symmetric structure canbe accurately computed utilizing a 180 degree model with the appropriateboundary conditions.
ModelThe 180 degree sector was modeled using radial lines at intervals of 15degrees. Tangential lines were then located utilizing a relationship such thatthe aspect ratio of the quad-plate elements was approximately 1.0. Allrotations normal to the plane of the plate were restrained. In-planetranslations for all nodes were restrained because the theoretical solutiondoes not consider in-plane effects. Rotations about the global Y axis for thenodes at X=0.0 were restrained because this is a symmetry boundary. Z
91 — STAAD.Pro
16 Natural Frequencies of a Circular Plate
translation of all nodes on the outside radius were restrained to provide forthe simply-supported condition.
It should be noted that the outside edge of the plate is a series of secant linesinstead of a true arc. This will result in a loss of about 1% of the plate’s truemass or about .5% of the mass that is effective for this problem.
Therefore, it is not unlikely that a few natural frequencies will be lower thanthe theoretical values instead of higher which is typical for a finite elementanalysis using plate elements. In addition, a true simple-support condition forthis problem would require restraining the component of rotation that isradial to the outside edge.
Theoretical Answers
From the reference case 2 in Table 11-1, the first six natural frequencies of theplate are described by the following equation:
= dimensionless parameter associated with the mode indices i,j
i = number of nodal diameters in this mode shape
j = number of nodal circles in this mode shape not counting theboundary
ν = Poisson’s ratio
E = Elastic Modulus
92 — STAAD.Pro
16 Natural Frequencies of a Circular Plate
h = plate thickness
γ = mass of plate per unit area
a = radius of plate
The numerical values used for this example are:
ν = 0.30
E = 10.0x10P6P psi
h = 0.10 inches
γ =
a = 10.0 inches
with the numerical values used above
cycles/sec
is tabulated from the reference as follows:
ModeNumber
Number ofNodal Dia-meters (i)
Number ofNodal Circles
(j)
1 4.977 0 0
2 13.94 1 0
3 25.65 2 0
4 29.76 0 1
5(l) 3 0
6 48.51 1 1
(l) not tabulated in the reference
Verification Manual — 93
16 Natural Frequencies of a Circular Plate
Comparison
ModeNumber
TheoreticalFrequency
(Hz)
STAAD BasicSolver
Frequency(Hz)
STAAD AdvancedSolver
Frequency (Hz)
1 47.12 46.21 46.21
2 132.0 130.54 130.54
3 242.8 240.15 240.15
4 281.7 283.03 283.03
5 * 373.2 373.2
6 459.3 466.58 466.58
*The reference did not tabulate a value of for the fifth mode of thestructure, hence a comparison with the theoretical value of this mode cannotbe made.
DiscussionAll anti-symmetric mode shapes for the 360 degree circular plate werecaptured by the 180 degree model with a phase angle included in thecalculation. Some of the difference between the theoretical and STAADfrequencies is attributed to the loss of mass due to the piecewise secantrepresentation of the outer radius and, since this mass is about 1 percentlower than for a true circular plate, it is not surprising that the first fewmodes are lower than the theoretical solution.
Input file
STAAD SPACE STAAD VER. PROB. 16
* NATURAL FREQUENCIES OF A CIRCULAR PLATE
UNIT POUND INCH
JOINT COORD CYLINDRICAL
1 1 -90 0 13 1 90 0
REP 2 1.244 0 0
REP 1 1.051 0 0
REP 1 1.367 0 0
94 — STAAD.Pro
16 Natural Frequencies of a Circular Plate
REP 1 1.779 0 0
REP 1 2.315 0 0
JOINT COORD
1000 0 0 0
ELEM INCI
1 1000 1 2 ; 2 1000 2 3 ; 3 1000 3 4 ; 4 1000 4 5 ; 51000 5 6
6 1000 6 7 ; 7 1000 7 8 ; 8 1000 8 9 ; 9 1000 9 10 ; 101000 10 11
11 1000 11 12 ; 12 1000 12 13
13 1 14 15 2 TO 24
REP 5 12 13
ELEM PROP
1 TO 84 TH 0.1
CONST
E 10.0E6 ALL
POISS 0.3 ALL
DENS 0.1 ALL
SUPP
* CENTRE OF CIRCLE
1000 FIXED BUT FZ MX
* INTERIOR NODES
2 TO 12 15 TO 25 28 TO 38 41 TO 51 54 TO 64 -
67 TO 77 FIXED BUT FZ MX MY
* NODES ALONG CIRCUMFERENCE
79 TO 91 FIXED BUT MX MY
* NODES ALONG DIAMETER EXCEPT THE TWO AT THE ENDS OF THEDIAMETER.
1 TO 66 BY 13 13 TO 78 BY 13 FIXED BUT FZ MX
LOAD 1
SELF X 1.0
SELF Y 1.0
Verification Manual — 95
16 Natural Frequencies of a Circular Plate
SELF Z 1.0
MODAL CALC REQ
PERF ANALY
FINI
96 — STAAD.Pro
16 Natural Frequencies of a Circular Plate
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:46:27 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD SPACE STAAD VER. PROB. 16INPUT FILE: ver16.STD
2. * NATURAL FREQUENCIES OF A CIRCULAR PLATE4. UNIT POUND INCH5. JOINT COORD CYLINDRICAL6. 1 1 -90 0 13 1 90 07. REP 2 1.244 0 08. REP 1 1.051 0 09. REP 1 1.367 0 010. REP 1 1.779 0 011. REP 1 2.315 0 013. JOINT COORD
**WARNING- Two consecutive Joint Coordinate data sets entered.14. 1000 0 0 016. ELEM INCI17. 1 1000 1 2 ; 2 1000 2 3 ; 3 1000 3 4 ; 4 1000 4 5 ; 5 1000 5 618. 6 1000 6 7 ; 7 1000 7 8 ; 8 1000 8 9 ; 9 1000 9 10 ; 10 1000 10 1119. 11 1000 11 12 ; 12 1000 12 1321. 13 1 14 15 2 TO 2422. REP 5 12 1324. ELEM PROP25. 1 TO 84 TH 0.127. CONST28. E 10.0E6 ALL29. POISS 0.3 ALL30. DENS 0.1 ALL32. SUPP34. * CENTRE OF CIRCLE35. 1000 FIXED BUT FZ MX37. * INTERIOR NODES38. 2 TO 12 15 TO 25 28 TO 38 41 TO 51 54 TO 64 -39. 67 TO 77 FIXED BUT FZ MX MY41. * NODES ALONG CIRCUMFERENCE42. 79 TO 91 FIXED BUT MX MY44. * NODES ALONG DIAMETER EXCEPT THE TWO AT THE ENDS OF THE DIAMETER.45. 1 TO 66 BY 13 13 TO 78 BY 13 FIXED BUT FZ MX47. LOAD 148. SELF X 1.049. SELF Y 1.0STAAD VER. PROB. 16 -- PAGE NO. 2* NATURAL FREQUENCIES OF A CIRCULAR PLATE50. SELF Z 1.051. MODAL CALC REQ52. PERF ANALY
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 92/ 84/ 92SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 91/ 13/ 40 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 250SIZE OF STIFFNESS MATRIX = 10 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.8/ 159659.2 MB
NUMBER OF MODES REQUESTED = 6NUMBER OF EXISTING MASSES IN THE MODEL = 79NUMBER OF MODES THAT WILL BE USED = 6
Verification Manual — 97
16 Natural Frequencies of a Circular Plate
*** EIGENSOLUTION : SUBSPACE METHOD ***STAAD VER. PROB. 16 -- PAGE NO. 3* NATURAL FREQUENCIES OF A CIRCULAR PLATE
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC) ACCURACY1 46.211 0.02164 5.178E-162 130.541 0.00766 1.038E-153 240.146 0.00416 2.045E-164 283.028 0.00353 8.835E-165 373.198 0.00268 5.081E-166 466.579 0.00214 2.601E-08
STAAD VER. PROB. 16 -- PAGE NO. 4* NATURAL FREQUENCIES OF A CIRCULAR PLATEThe following Frequencies are estimates that were calculated. These are forinformation only and will not be used. Remaining values are either abovethe cut off mode/freq values or are of low accuracy. To use thesefrequencies, rerun with a higher cutoff mode (or mode + freq) value.
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC) ACCURACY7 527.844 0.00189 6.230E-138 672.921 0.00149 2.235E-079 701.137 0.00143 6.994E-1010 712.175 0.00140 5.522E-0711 888.597 0.00113 1.377E-0812 903.499 0.00111 5.277E-07
MODAL WEIGHT (MODAL MASS TIMES g) IN POUNMODE X Y Z
1 0.000000E+00 0.000000E+00 1.053697E+002 0.000000E+00 0.000000E+00 2.213951E-103 0.000000E+00 0.000000E+00 1.886318E-074 0.000000E+00 0.000000E+00 1.275807E-015 0.000000E+00 0.000000E+00 1.060158E-086 0.000000E+00 0.000000E+00 7.873980E-10
PARTICIPATION FACTORSMASS PARTICIPATION FACTORS IN PERCENT--------------------------------------
MODE X Y Z SUMM-X SUMM-Y SUMM-Z1 0.00 0.00 86.78 0.000 0.000 86.7802 0.00 0.00 0.00 0.000 0.000 86.7803 0.00 0.00 0.00 0.000 0.000 86.7804 0.00 0.00 10.51 0.000 0.000 97.2875 0.00 0.00 0.00 0.000 0.000 97.2876 0.00 0.00 0.00 0.000 0.000 97.287
STAAD VER. PROB. 16 -- PAGE NO. 5* NATURAL FREQUENCIES OF A CIRCULAR PLATE53. FINISTAAD VER. PROB. 16 -- PAGE NO. 6* NATURAL FREQUENCIES OF A CIRCULAR PLATE
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:46:27 ****
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ *
98 — STAAD.Pro
16 Natural Frequencies of a Circular Plate
* *************************************************************
STAAD VER. PROB. 16 -- PAGE NO. 7* NATURAL FREQUENCIES OF A CIRCULAR PLATE
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 99
16 Natural Frequencies of a Circular Plate
100 — STAAD.Pro
16 Natural Frequencies of a Circular Plate
NOTES
17 Natural Frequencies of a Rectangular Plate.PurposeCompare theoretical answers to the STAAD solution.
ReferenceBlevins, Robert D., ”Formulas for Natural Frequency and Mode Shape,” VanNostrand Reinhold Company, 1979, page 258.
ProblemA flat rectangular plate is simply supported on all four sides. The first sixmodes and their associated natural frequencies are to be computed for thisstructure using the subspace iteration method offered by STAAD. This problemalso demonstrates that the mesh refinement can be chosen to accuratelycalculate modes of interest based on the expected mode shapes.
simply supported, rectangular plate
L = 45 in., W = 30 in., t = 0.2 in.
ModelA plate with an aspect ratio of 1.5 was used so that comparison could be madewith theoretical results tabulated for plates in the reference. An equally spacedmesh was utilized in both the x and the y dimensions of the plate. The numberof elements in each dimension was determined on the basis of the highest
Verification Manual — 101
mode of interest. Since the number of half-waves in the sixth mode is 3 inthe length dimension and 2 in the width dimension, a node spacing of 3.75inches results in each half- wave being represented by four elements whichmeans that no element will be expected to deform in double curvature. Thesimply supported edge condition requires that translation normal to the planeof the plate be restrained for these edge nodes. Rotations normal to the platewere restrained for all nodes.
model: finite element meshed
Theoretical Answers
From the reference case 16 in Table 11-4, the first six natural frequencies ofthe plate are described by the following equations:
= dimensionless parameter associated with the mode indices i, j
i = number of half-waves in this mode shape along the horizontalaxis
j = number of half-waves in this mode shape along the vertical axis
102 — STAAD.Pro
17 Natural Frequencies of a Rectangular Plate.
ν = Poisson’s ratio
E = elastic modulus
h = plate thickness
γ = mass of material per unit area
a = length of plate
b = width of plate
The numerical values used for this example are:
ν = 0.30
E =30.0x106 psi
h=0.2 inches
a = 45.0 inches
b = 30.0 inches
with the numerical values used above
is tabulated from the reference as follows:
ModeNumber
Number of Half-Waves
in Length (i)
Number of Half-Waves
in Width (j)
1 32.08 1 1
2 61.69 2 1
3 98.70 1 2
4 111.0 3 1
5 128.3 2 2
6 177.7 3 2
Verification Manual — 103
17 Natural Frequencies of a Rectangular Plate.
Comparison
ModeNumber
TheoreticalFrequency
(Hz)
STAAD BasicSolver
Frequency(Hz)
STAAD AdvancedSolver
Frequency (Hz)
1 30.94 30.6 30.6
2 59.49 58.72 58.72
3 95.18 95.06 95.06
4 107.1 106.28 106.28
5 123.7 122.09 122.09
6 171.3 168.0 168.0
DiscussionAs was noted earlier, the node spacing was based on the highest mode ofinterest. It follows that the difference between the theoretical and STAADfrequencies generally increases with increasing mode sequence.
Input file
STAAD SPACE STAAD VER. PROB. 17.
* NATURAL FREQUENCIES OF A RECTANGULAR PLATE
UNIT POUND INCH
JOINT COORD
1 0 0 0 13 45 0 0
REP ALL 8 0 3.75 0
ELEM INCI
1 1 2 15 14 TO 12
REP 7 12 13
ELEM PROP
1 TO 96 TH 0.2
CONST
E 30.0E6 ALL
DENS 0.282 ALL
104 — STAAD.Pro
17 Natural Frequencies of a Rectangular Plate.
POISSON 0.3 ALL
CUT OFF MODE SHAPE 6
CUT OFF FREQ 1000
SUPPORT
* CORNER NODES
1 13 105 117 FIXED BUT MX MY
* NODES ALONG Y=0 AND Y=30
2 TO 12 106 TO 116 FIXED BUT MX MY
* NODES ALONG X=0
14 TO 92 BY 13 FIXED BUT MX MY
* NODES ALONG X=45
26 TO 104 BY 13 FIXED BUT MX MY
* INTERIOR NODES
15 TO 25 28 TO 38 41 TO 51 54 TO 64 67 TO 77 80 TO 90 -
93 TO 103 FIXED BUT FZ MX MY
LOAD 1
SELF X 1
SELF Y 1
SELF Z 1
MODAL CALC REQ
PERF ANALY
FINI
Verification Manual — 105
17 Natural Frequencies of a Rectangular Plate.
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:46:32 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD SPACE STAAD VER. PROB. 17INPUT FILE: ver17.STD
2. * NATURAL FREQUENCIES OF A RECTANGULAR PLATE4. UNIT POUND INCH5. JOINT COORD6. 1 0 0 0 13 45 0 07. REP ALL 8 0 3.75 08. ELEM INCI9. 1 1 2 15 14 TO 1210. REP 7 12 1311. ELEM PROP12. 1 TO 96 TH 0.213. CONST14. E 30.0E6 ALL15. DENS 0.282 ALL16. POISSON 0.3 ALL17. CUT OFF MODE SHAPE 618. CUT OFF FREQ 100019. SUPP21. * CORNER NODES22. 1 13 105 117 FIXED BUT MX MY24. * NODES ALONG Y=0 AND Y=3025. 2 TO 12 106 TO 116 FIXED BUT MX MY27. * NODES ALONG X=028. 14 TO 92 BY 13 FIXED BUT MX MY30. * NODES ALONG X=4531. 26 TO 104 BY 13 FIXED BUT MX MY33. * INTERIOR NODES34. 15 TO 25 28 TO 38 41 TO 51 54 TO 64 67 TO 77 80 TO 90 -35. 93 TO 103 FIXED BUT FZ MX MY37. LOAD 138. SELF X 139. SELF Y 140. SELF Z 141. MODAL CALC REQ42. PERF ANALYSTAAD VER. PROB. 17 -- PAGE NO. 2* NATURAL FREQUENCIES OF A RECTANGULAR PLATE
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 117/ 96/ 117SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 14/ 14/ 43 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 311SIZE OF STIFFNESS MATRIX = 14 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.9/ 159658.7 MB
NUMBER OF MODES REQUESTED = 6NUMBER OF EXISTING MASSES IN THE MODEL = 77NUMBER OF MODES THAT WILL BE USED = 6*** EIGENSOLUTION : SUBSPACE METHOD ***STAAD VER. PROB. 17 -- PAGE NO. 3* NATURAL FREQUENCIES OF A RECTANGULAR PLATE
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC) ACCURACY1 30.599 0.03268 1.968E-16
106 — STAAD.Pro
17 Natural Frequencies of a Rectangular Plate.
2 58.724 0.01703 4.325E-133 95.063 0.01052 9.652E-114 106.277 0.00941 8.480E-105 122.092 0.00819 1.381E-086 168.009 0.00595 9.194E-07
STAAD VER. PROB. 17 -- PAGE NO. 4* NATURAL FREQUENCIES OF A RECTANGULAR PLATEThe following Frequencies are estimates that were calculated. These are forinformation only and will not be used. Remaining values are either abovethe cut off mode/freq values or are of low accuracy. To use thesefrequencies, rerun with a higher cutoff mode (or mode + freq) value.
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC) ACCURACY7 173.592 0.00576 3.784E-078 204.044 0.00490 1.762E-069 229.811 0.00435 4.807E-0510 233.369 0.00429 2.127E-0511 261.140 0.00383 4.621E-05
MODAL WEIGHT (MODAL MASS TIMES g) IN POUNMODE X Y Z
1 0.000000E+00 0.000000E+00 4.833474E+012 0.000000E+00 0.000000E+00 4.228619E-203 0.000000E+00 0.000000E+00 1.629244E-184 0.000000E+00 0.000000E+00 4.837136E+005 0.000000E+00 0.000000E+00 1.069665E-136 0.000000E+00 0.000000E+00 7.199120E-11
PARTICIPATION FACTORSMASS PARTICIPATION FACTORS IN PERCENT--------------------------------------
MODE X Y Z SUMM-X SUMM-Y SUMM-Z1 0.00 0.00 79.15 0.000 0.000 79.1462 0.00 0.00 0.00 0.000 0.000 79.1463 0.00 0.00 0.00 0.000 0.000 79.1464 0.00 0.00 7.92 0.000 0.000 87.0665 0.00 0.00 0.00 0.000 0.000 87.0666 0.00 0.00 0.00 0.000 0.000 87.066
43. FINISTAAD VER. PROB. 17 -- PAGE NO. 5* NATURAL FREQUENCIES OF A RECTANGULAR PLATESTAAD VER. PROB. 17 -- PAGE NO. 6* NATURAL FREQUENCIES OF A RECTANGULAR PLATE
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:46:32 ****
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
STAAD VER. PROB. 17 -- PAGE NO. 7* NATURAL FREQUENCIES OF A RECTANGULAR PLATE
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------
Verification Manual — 107
17 Natural Frequencies of a Rectangular Plate.
06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
108 — STAAD.Pro
17 Natural Frequencies of a Rectangular Plate.
18 Natural Modes of a FrameworkPurposeCompare the results from STAAD's subspace iteration method with the resultsfrom EASE2 and ANSYS.
Reference
1. Problem 1, from the ASME 1972 Program Verification and QualificationLibrary
2. DeSalvo, G.J., and Swanson, J.A., “ANSYS Engineering Analysis SystemExamples Manual”, Swanson Analysis Systems, Inc., 1979, Example Prob-lem No. 2.
3. Peterson, F.E., “EASE2 Elastic Analysis for Structural Engineering Exam-ple Problem Manual”, Engineering Analysis Corporation, 1981, Example2.03.
ProblemA three dimensional frame is analyzed for its natural frequencies and theassociated mode shapes using the subspace iteration method offered bySTAAD.
Verification Manual — 109
Frame
All dimensions are in inches.
Model
The only entity present in the model is the general purpose three dimensionalbeam.
Cross-section Properties
All the beam elements have the same cross section:
Outside radius, Ro = 1.1875 in.
Inside radius, Ri = 1.0335 in.
Area = π(Ro2 - Ri2) = 1.074532 in2
Moment of Inertia, I = π/4(Ro4 - Ri4)
I = 0.665747 in4
Torsion constant = twice the inertia, for closed circular sections =1.331494 in4
The expression for the shear flexibility factor is derived from the ratio ofmaximum shear stress to the average shear stress:
110 — STAAD.Pro
18 Natural Modes of a Framework
α = AQ/Ib
Where the four items – A, Q, I, and b are properties of the half cross-sectionabout the centerline. For the circular section they are:
A = π/2(Ro2 - Ri2)
Q = 2/3(Ro3 - Ri3)
I = π/8(Ro4 - Ri4)
I = 2(Ro - Ri)
The final expression for the shear flexibility factor, for a circular tube sectionis:
α = 1.993620
Hence the shear area is entered as
AY = Cross Section Area / α = 1.074532 / 1.99362 = 0.538985 in2
ComparisonThe following table compares Twenty-Four Natural Frequencies
ModeNumber
Natural Frequency, Cycles per second
EASE2 ANSYS STAAD BasicSolver
STAAD AdvancedSolver
1 111.53 111.52 111.23 111.23
2 115.96 115.95 115.80 115.80
3 137.61 137.60 137.17 137.17
4 218.03 218.02 215.80 215.80
5 404.23 404.23 404.27 404.27
6 422.72 422.70 422.64 422.64
7 451.75 451.72 451.60 451.60
8 554.07 553.99 549.01 549.01
9 735.81 735.70 733.59 733.59
Verification Manual — 111
18 Natural Modes of a Framework
ModeNumber
Natural Frequency, Cycles per second
EASE2 ANSYS STAAD BasicSolver
STAAD AdvancedSolver
10 762.44 762.32 758.56 758.56
11 852.72 852.57 851.36 851.36
12 894.26 894.08 892.28 892.28
13 910.40 910.21 893.06 893.06
14 917.18 916.98 910.83 910.83
15 940.02 940.02 932.29 932.29
16 960.27 959.98 956.39 956.39
17 971.44 971.15 964.01 964.01
18 977.22 976.92 967.27 967.27
19 1012.5 1012.2 981.54 981.54
20 1028.8 1028.4 1009.26 1009.26
21 1123.9 1123.6 1070.56 1070.56
22 1134.9 1134.5 1123.16 1123.16
23 1164.4 1164.1 1149.37 1149.37
24 1217.2 1216.7 1199.88 1199.88
In both the References, the number of dynamic degrees of freedom has beenreduced from 42 to 24, by means of the Guyan method. No such reduction isperformed in the STAAD model.
Input File
STAAD SPACE STAAD VER. PROB. 18
* NATURAL FREQUENCIES OF A SPACE FRAME
UNIT POUND INCH
JOINT COORD
1 0 0 0 ; 2 27.25 0 0
3 0 10 0 ; 4 27.25 10 0
112 — STAAD.Pro
18 Natural Modes of a Framework
5 0 18.625 0 ; 6 8.625 18.625 0 ; 7 18.625 18.625 0 ; 827.25 18.625 0
9 0 18.625 8.625 ; 10 27.25 18.625 8.625
11 0 0 17.25 ; 12 27.25 0 17.25
13 0 10 17.25 ; 14 27.25 10 17.25
15 0 18.625 17.25 ; 16 8.625 18.625 17.25
17 18.625 18.625 17.25 ; 18 27.25 18.625 17.25
MEMB INCI
1 1 3 ; 2 2 4 ; 3 3 5 ; 4 4 8
5 5 6 7
8 5 9 ; 9 8 10 ; 10 9 15 ; 11 10 18
12 11 13 ; 13 12 14 ; 14 13 15 ; 15 14 18
16 15 16 ; 17 16 17 ; 18 17 18
MEMB PROP
1 TO 18 PRIS AX 1.074532 IZ 0.665747 IY 0.665747 IX1.331494 -
AY 0.538985 AZ 0.538985
* AY 1.88 AZ 1.88
CONST
E 27.9E6 ALL
POISS 0.3 ALL
CUT OFF MODE SHAPE 24
1 2 11 12 FIXED
LOAD 1
Verification Manual — 113
18 Natural Modes of a Framework
JOINT LOAD
3 4 13 14 FX 3.4517 FY 3.4517 FZ 3.4517
6 7 16 17 FX 3.4517 FY 3.4517 FZ 3.4517
9 10 FX 3.4517 FY 3.4517 FZ 3.4517
5 8 15 18 FX 9.7973 FY 9.7973 FZ 9.7973
MODAL CALC REQ
PERF ANALY
FINI
114 — STAAD.Pro
18 Natural Modes of a Framework
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:46:37 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD SPACE STAAD VER. PROB. 18INPUT FILE: ver18.STD
2. * NATURAL MODES OF A SPACE FRAME4. UNIT POUND INCH5. JOINT COORD6. 1 0 0 0 ; 2 27.25 0 07. 3 0 10 0 ; 4 27.25 10 08. 5 0 18.625 0 ; 6 8.625 18.625 0 ; 7 18.625 18.625 0 ; 8 27.25 18.625 010. 9 0 18.625 8.625 ; 10 27.25 18.625 8.62512. 11 0 0 17.25 ; 12 27.25 0 17.2513. 13 0 10 17.25 ; 14 27.25 10 17.2514. 15 0 18.625 17.25 ; 16 8.625 18.625 17.2515. 17 18.625 18.625 17.25 ; 18 27.25 18.625 17.2517. MEMB INCI18. 1 1 3 ; 2 2 4 ; 3 3 5 ; 4 4 819. 5 5 6 721. 8 5 9 ; 9 8 10 ; 10 9 15 ; 11 10 1823. 12 11 13 ; 13 12 14 ; 14 13 15 ; 15 14 1824. 16 15 16 ; 17 16 17 ; 18 17 1826. MEMB PROP27. 1 TO 18 PRIS AX 1.074532 IZ 0.665747 IY 0.665747 IX 1.331494 -28. AY 0.538985 AZ 0.53898529. * AY 1.88 AZ 1.8831. CONST32. E 27.9E6 ALL33. POISS 0.3 ALL34. CUT OFF MODE SHAPE 2436. SUPP37. 1 2 11 12 FIXED39. LOAD 140. JOINT LOAD41. 3 4 13 14 FX 3.4517 FY 3.4517 FZ 3.451742. 6 7 16 17 FX 3.4517 FY 3.4517 FZ 3.451743. 9 10 FX 3.4517 FY 3.4517 FZ 3.451744. 5 8 15 18 FX 9.7973 FY 9.7973 FZ 9.797346. MODAL CALC REQ47. PERF ANALYSTAAD VER. PROB. 18 -- PAGE NO. 2* NATURAL MODES OF A SPACE FRAME
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 18/ 18/ 4SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 8/ 4/ 30 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 84SIZE OF STIFFNESS MATRIX = 3 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.1/ 159658.6 MB
NUMBER OF MODES REQUESTED = 24NUMBER OF EXISTING MASSES IN THE MODEL = 42NUMBER OF MODES THAT WILL BE USED = 24*** EIGENSOLUTION : SUBSPACE METHOD ***STAAD VER. PROB. 18 -- PAGE NO. 3* NATURAL MODES OF A SPACE FRAME
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC) ACCURACY
Verification Manual — 115
18 Natural Modes of a Framework
1 111.236 0.00899 7.150E-162 115.801 0.00864 4.398E-163 137.169 0.00729 3.134E-164 215.799 0.00463 1.266E-155 404.271 0.00247 4.330E-166 422.642 0.00237 5.283E-167 451.600 0.00221 0.000E+008 549.012 0.00182 1.565E-169 733.589 0.00136 0.000E+0010 758.563 0.00132 3.280E-1611 851.355 0.00117 3.906E-1612 892.281 0.00112 3.556E-1613 893.060 0.00112 0.000E+0014 910.829 0.00110 5.881E-1215 932.286 0.00107 2.171E-1616 956.391 0.00105 2.063E-1617 964.012 0.00104 7.216E-1018 967.267 0.00103 0.000E+0019 981.536 0.00102 0.000E+0020 1009.256 0.00099 3.706E-1621 1070.562 0.00093 1.419E-1022 1123.161 0.00089 4.488E-1623 1149.368 0.00087 9.081E-0924 1199.882 0.00083 3.933E-16
STAAD VER. PROB. 18 -- PAGE NO. 4* NATURAL MODES OF A SPACE FRAMEThe following Frequencies are estimates that were calculated. These are forinformation only and will not be used. Remaining values are either abovethe cut off mode/freq values or are of low accuracy. To use thesefrequencies, rerun with a higher cutoff mode (or mode + freq) value.
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC) ACCURACY25 1262.045 0.00079 7.109E-1626 1352.368 0.00074 0.000E+0027 1355.475 0.00074 7.348E-1028 1410.628 0.00071 1.897E-1629 1512.064 0.00066 3.302E-1630 1567.343 0.00064 3.073E-1631 1926.045 0.00052 4.070E-1632 1943.161 0.00051 1.999E-1633 3654.783 0.00027 5.062E-0834 3659.116 0.00027 4.511E-1635 4514.280 0.00022 7.409E-1636 4514.644 0.00022 7.422E-0837 4515.631 0.00022 5.923E-1638 4516.026 0.00022 1.481E-1639 4815.936 0.00021 3.906E-1640 5312.712 0.00019 4.279E-16
MODAL WEIGHT (MODAL MASS TIMES g) IN POUNMODE X Y Z
1 6.984127E+01 2.148148E-33 2.116575E-282 1.278059E-28 4.260871E-33 7.005318E+013 1.334786E-26 1.506346E-32 7.258520E-264 5.363809E-23 8.246502E-38 9.476748E-285 5.181462E-30 4.244586E-03 8.548127E-326 1.574093E-27 1.825469E+01 3.599063E-357 1.297531E-27 1.703203E-29 5.112395E-038 4.947173E-32 1.476836E-32 2.966451E-019 6.029626E-28 9.521517E+00 6.548318E-2710 9.808873E-04 2.461898E-29 7.138047E-3011 1.321193E+00 4.883939E-31 5.697600E-2412 4.394276E-25 1.911258E+00 1.705243E-2413 1.722238E+00 2.888943E-26 1.809548E-2414 2.862893E-26 2.885970E-28 2.865256E-3015 2.786326E-28 1.289225E-28 2.363041E-0116 1.013788E-24 4.122944E+00 1.025583E-24
116 — STAAD.Pro
18 Natural Modes of a Framework
17 2.160889E-24 4.239236E-28 1.355195E-2618 3.256494E-26 1.184829E-28 3.083967E+0019 3.491379E-01 1.623903E-30 1.402550E-2420 3.469303E-25 1.122183E+01 5.217990E-2421 9.923317E-24 1.878264E-27 1.264702E-26
STAAD VER. PROB. 18 -- PAGE NO. 5* NATURAL MODES OF A SPACE FRAME
22 3.635978E-01 1.612759E-28 2.105646E-2523 3.474316E-25 3.040856E-29 1.020214E-2324 6.381997E-02 1.963886E-28 1.643944E-29
STAAD VER. PROB. 18 -- PAGE NO. 6* NATURAL MODES OF A SPACE FRAME
PARTICIPATION FACTORSMASS PARTICIPATION FACTORS IN PERCENT--------------------------------------
MODE X Y Z SUMM-X SUMM-Y SUMM-Z1 94.76 0.00 0.00 94.756 0.000 0.0002 0.00 0.00 95.04 94.756 0.000 95.0443 0.00 0.00 0.00 94.756 0.000 95.0444 0.00 0.00 0.00 94.756 0.000 95.0445 0.00 0.01 0.00 94.756 0.006 95.0446 0.00 24.77 0.00 94.756 24.773 95.0447 0.00 0.00 0.01 94.756 24.773 95.0518 0.00 0.00 0.40 94.756 24.773 95.4539 0.00 12.92 0.00 94.756 37.691 95.45310 0.00 0.00 0.00 94.758 37.691 95.45311 1.79 0.00 0.00 96.550 37.691 95.45312 0.00 2.59 0.00 96.550 40.284 95.45313 2.34 0.00 0.00 98.887 40.284 95.45314 0.00 0.00 0.00 98.887 40.284 95.45315 0.00 0.00 0.32 98.887 40.284 95.77416 0.00 5.59 0.00 98.887 45.878 95.77417 0.00 0.00 0.00 98.887 45.878 95.77418 0.00 0.00 4.18 98.887 45.878 99.95819 0.47 0.00 0.00 99.360 45.878 99.95820 0.00 15.23 0.00 99.360 61.103 99.95821 0.00 0.00 0.00 99.360 61.103 99.95822 0.49 0.00 0.00 99.854 61.103 99.95823 0.00 0.00 0.00 99.854 61.103 99.95824 0.09 0.00 0.00 99.940 61.103 99.958
48. FINI*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:46:38 ****
STAAD VER. PROB. 18 -- PAGE NO. 7* NATURAL MODES OF A SPACE FRAME
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
STAAD VER. PROB. 18 -- PAGE NO. 8* NATURAL MODES OF A SPACE FRAME
Information about the key files in the current distribution
Verification Manual — 117
18 Natural Modes of a Framework
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118 — STAAD.Pro
18 Natural Modes of a Framework
19 Response of a Simply Supported Beam to aShock Spectrum
PurposeCompare theoretical answers to the STAAD solution.
Reference
1. Biggs, John M., “Introduction to Structural Dynamics,” McGraw Hill,1964, pp. 256-263
2. Blevins, Robert D.,“ Formulas for Natural Frequency and Mode Shape,”Van Nostrand-Reinhold, 1979.
ProblemThe supports of a simply supported beam are subjected to an acceleration timehistory. The maximum bending moment in the beam is computed for the firstmode of the structure. This problem demonstrates the capabilities of STAADto calculate the correct modal response of a structure utilizing responsespectrum data.
ModelThe STAAD model consists of 11 nodes and 10 elastic beam elements. Node 1 iscompletely restrained with the exception of having rotational freedom in the Zdirection, the remaining nodes are restrained except for X and Y displacementsand Z rotations. Node 11 is additionally restrained against displacements in theY direction to provide for the simple support condition . Only the contributionof the first mode of the structure is considered.
Verification Manual — 119
Theoretical SolutionMaterial Properties
L = 240.0 inches
E = 30 x 106 lb/in2
EI = 1.0 x 1010 lb-in2
m = 0.2 lb-sec2 / in2
h = 14.0 in.
From Reference 2, Table 8-1, page 108, the fundamental frequency of thebeam is:
The modal participation factor for the fundamental mode is:
Where φ(x) is the first mode shape = sin(πx/1)
120 — STAAD.Pro
19 Response of a Simply Supported Beam to a Shock Spectrum
Γ = 4/π
The maximum relative modal displacement is given by:
where:
where
ω - 2π*6.098Hz
and
(DLF)max = 1.648 at 6.098 Hz
therefore:
inches
The bending moment
Where u for the first mode
at x=l/2
Comparison
Solution TheorySTAAD
Basic Solver(Beam 5)
STAADAdvanced
Solver (Beam5)
Bending Moment(kip-inch)
946.351 947.09 947.09
Verification Manual — 121
19 Response of a Simply Supported Beam to a Shock Spectrum
Input File
STAAD SPACE STAAD VER. PROB. 19
* RESPONSE OF A SIMPLY SUPPORTED BEAM TO A SHOCK SPECTRUM
UNIT POUND INCH
JOINT COORD
1 0 0 0 11 240 0 0
MEMB INCI
1 1 2 10
MEMB PROP
1 TO 10 PRIS YD 14.0 ZD 1.45777 AX 20.4082 IX 40.0 IY3.6139 IZ 333.333
CONST
E 30.0E6 ALL
POISS 0.3 ALL
DENS 3.78672 ALL
CUT OFF MODE SHAPE 1
SUPPORT
1 FIXED BUT MZ
2 TO 10 FIXED BUT FX FY MZ
11 FIXED BUT FX MZ
LOAD 1
SELF X 1.0
SELF Y 1.0
SPECTRUM SRSS Y 1.0 ACC DAMP 0.001 SCALE 386.4
0.15 1.648 ; 0.17 1.648
PERF ANALY
PRINT MEMB FORCE LIST 5
FINI
122 — STAAD.Pro
19 Response of a Simply Supported Beam to a Shock Spectrum
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:46:42 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD SPACE STAAD VER. PROB. 19INPUT FILE: ver19.STD
2. * RESPONSE OF A SIMPLY SUPPORTED BEAM TO A SHOCK SPECTRUM3. UNIT POUND INCH4. JOINT COORD5. 1 0 0 0 11 240 0 06. MEMB INCI7. 1 1 2 108. MEMB PROP9. 1 TO 10 PRIS YD 14.0 ZD 1.45777 AX 20.4082 IX 40.0 IY 3.6139 IZ 333.33310. CONST11. E 30.0E6 ALL12. POISS 0.3 ALL13. DENS 3.78672 ALL14. CUT OFF MODE SHAPE 115. SUPPORT16. 1 FIXED BUT MZ17. 2 TO 10 FIXED BUT FX FY MZ18. 11 FIXED BUT FX MZ19. LOAD 120. SELF X 1.021. SELF Y 1.022. SPECTRUM SRSS Y 1.0 ACC DAMP 0.001 SCALE 386.423. 0.15 1.648 ; 0.17 1.64824. PERF ANALY
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 11/ 10/ 11STAAD VER. PROB. 19 -- PAGE NO. 2* RESPONSE OF A SIMPLY SUPPORTED BEAM TO A S
SOLVER USED IS THE OUT-OF-CORE BASIC SOLVERORIGINAL/FINAL BAND-WIDTH= 1/ 1/ 6 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 30SIZE OF STIFFNESS MATRIX = 1 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 12.0/ 159658.6 MB
NUMBER OF MODES REQUESTED = 1NUMBER OF EXISTING MASSES IN THE MODEL = 19NUMBER OF MODES THAT WILL BE USED = 1*** EIGENSOLUTION : SUBSPACE METHOD ***STAAD VER. PROB. 19 -- PAGE NO. 3* RESPONSE OF A SIMPLY SUPPORTED BEAM TO A S
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC) ACCURACY1 6.069 0.16476 2.208E-07
STAAD VER. PROB. 19 -- PAGE NO. 4* RESPONSE OF A SIMPLY SUPPORTED BEAM TO A SThe following Frequencies are estimates that were calculated. These are forinformation only and will not be used. Remaining values are either abovethe cut off mode/freq values or are of low accuracy. To use thesefrequencies, rerun with a higher cutoff mode (or mode + freq) value.
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC) ACCURACY2 23.959 0.04174 8.561E-073 52.682 0.01898 1.066E-08
MODAL WEIGHT (MODAL MASS TIMES g) IN POUN
Verification Manual — 123
19 Response of a Simply Supported Beam to a Shock Spectrum
MODE X Y Z1 3.605170E-18 1.478714E+04 0.000000E+00
RESPONSE LOAD CASE 1SRSS MODAL COMBINATION METHOD USED.DYNAMIC WEIGHT X Y Z 1.761987E+04 1.669251E+04 0.000000E+00 POUNMISSING WEIGHT X Y Z -1.761987E+04 -1.905373E+03 0.000000E+00 POUNMODAL WEIGHT X Y Z 3.605170E-18 1.478714E+04 0.000000E+00 POUN
MODE ACCELERATION-G DAMPING---- -------------- -------
1 1.64933 0.00100MODAL BASE ACTIONSMODAL BASE ACTIONS FORCES IN POUN LENGTH IN INCH-----------------------------------------------------------
MOMENTS ARE ABOUT THE ORIGINMODE PERIOD FX FY FZ MX MY MZ
1 0.165 0.00 24388.86 0.00 0.00 0.00 2926662.97STAAD VER. PROB. 19 -- PAGE NO. 5* RESPONSE OF A SIMPLY SUPPORTED BEAM TO A S
PARTICIPATION FACTORSMASS PARTICIPATION FACTORS IN PERCENT BASE SHEAR IN POUN-------------------------------------- ------------------
MODE X Y Z SUMM-X SUMM-Y SUMM-Z X Y Z1 0.00 88.59 0.00 0.000 88.585 0.000 0.00 24388.86 0.00
---------------------------TOTAL SRSS SHEAR 0.00 24388.86 0.00TOTAL 10PCT SHEAR 0.00 24388.86 0.00TOTAL ABS SHEAR 0.00 24388.86 0.00
25. PRINT MEMB FORCE LIST 5MEMB FORCE LIST 5STAAD VER. PROB. 19 -- PAGE NO. 6* RESPONSE OF A SIMPLY SUPPORTED BEAM TO A SMEMBER END FORCES STRUCTURE TYPE = SPACE-----------------ALL UNITS ARE -- POUN INCH (LOCAL )MEMBER LOAD JT AXIAL SHEAR-Y SHEAR-Z TORSION MOM-Y MOM-Z
5 1 5 0.02 1931.41 0.00 0.00 0.00 900734.256 0.02 1931.41 0.00 0.00 0.00 947088.00
************** END OF LATEST ANALYSIS RESULT **************26. FINI
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:46:43 ****
STAAD VER. PROB. 19 -- PAGE NO. 7* RESPONSE OF A SIMPLY SUPPORTED BEAM TO A S
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
STAAD VER. PROB. 19 -- PAGE NO. 8* RESPONSE OF A SIMPLY SUPPORTED BEAM TO A S
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------
124 — STAAD.Pro
19 Response of a Simply Supported Beam to a Shock Spectrum
06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 125
19 Response of a Simply Supported Beam to a Shock Spectrum
126 — STAAD.Pro
19 Response of a Simply Supported Beam to a Shock Spectrum
NOTES
20 Thermal Loading on a Simply Supported Rec-tangular Plate
PurposeCompare theoretical answers to the STAAD solution.
ReferenceTimoshenko, S., and Woinowsky-Krieger, S., “Theory of Plates and Shells”,Second Edition, McGraw-Hill, 1959, pages 162 - 165.
ProblemA rectangular plate is simply supported on all four sides. The transverse andlongitudinal bending moments as well as the deflections at several points onthe plate are computed.
L = 12 in., W = 16 in.
ModelThe plate is modeled using 1 in. X 1 in. size elements. At the corner nodes, allthe degrees of freedom are considered restrained. For the nodes along the fouredges, rotation is permitted about that edge.
Verification Manual — 127
Theoretical SolutionFrom the Reference, equation (j), the expression for deflection normal to theplate surface is:
where
From the Reference, equation (k), the expressions for bending moment perunit width are
where
α = Coefficient of Thermal Expansion
t = Difference between the temperatures of the upper and lowersurfaces of the plate
ν = Poisson’s ratio
h = Plate thickness
a = Dimension of the plate along the x1 axis
b = Dimension of the plate along the x2 axis
E = Elastic Modulus
The numerical values used for this example are:
α = 12.0E-06 / °F
t = 450 °F
128 — STAAD.Pro
20 Thermal Loading on a Simply Supported Rectangular Plate
ν = 0.3
h = 0.3 in.
a = 12 in.
b = 16 in.
E= 10.0E6 psi
Comparison
Deflections along X = 6
NodeNumber X Y
TheoreticalDeflection
(in)
STAADBasicSolver
Deflection(in)
STAADAdvancedSolver
Deflection(in)
7 6 -8 0.00 0.00 0.00
20 6 -7 0.0897 0.0897 0.0897
33 6 -6 0.1597 0.1597 0.1597
46 6 -5 0.2132 0.2132 0.2132
59 6 -4 0.2531 0.2531 0.2531
72 6 -3 0.2818 0.2818 0.2818
85 6 -2 0.3011 0.3011 0.3011
98 6 -1 0.3122 0.3122 0.3122
111 6 0 0.3158 0.3158 0.3158
124 6 1 0.3122 0.3122 0.3122
Verification Manual — 129
20 Thermal Loading on a Simply Supported Rectangular Plate
Deflections along Y = 1
NodeNumber X Y
TheoreticalDeflection
(in)
STAADBasicSolver
Deflection(in)
STAADAdvancedSolver
Deflection(in)
118 0 1 0 0 0
119 1 1 0.1004 0.1004 0.1004
120 2 1 0.1794 0.1794 0.1794
121 3 1 0.2387 0.2387 0.2387
122 4 1 0.2799 0.2799 0.2799
123 5 1 0.3042 0.3042 0.3042
124 6 1 0.3122 0.3122 0.3122
125 7 1 0.3042 0.3042 0.3042
126 8 1 0.2799 0.2799 0.2799
127 9 1 0.2387 0.2387 0.2387
128 10 1 0.1794 0.1794 0.1794
129 11 1 0.1004 0.1004 0.1004
130 12 1 0 0 0
130 — STAAD.Pro
20 Thermal Loading on a Simply Supported Rectangular Plate
Bending Moments along Y = 0.5
ElementNumber X Y
TheoreticalMoment(Pound-in/in)
STAAD BASICSOLVERMoment
(Pound-in/in)
STAADADVANCEDSOLVER
Moment (Pound-in/in)
Mx My Mx My Mx My
97 0.5 0.5 16.74 388.26 16.85 388.37 16.85 388.37
98 1.5 0.5 48.93 356.07 49.25 356.37 49.25 356.37
99 2.5 0.5 77.45 327.55 77.92 328.01 77.92 328.01
100 3.5 0.5 100.36 304.64 100.93 305.20 100.93 305.20
101 4.5 0.5 116.31 288.69 116.93 289.32 116.93 289.32
102 5.5 0.5 124.47 280.54 125.11 281.19 125.11 281.19
103 6.5 0.5 124.47 280.54 125.11 281.19 125.11 281.19
104 7.5 0.5 116.31 288.69 116.93 289.32 116.93 289.32
105 8.5 0.5 100.36 304.64 100.93 305.20 100.93 305.20
106 9.5 0.5 77.45 327.55 77.92 328.01 77.92 328.01
107 10.5 0.5 48.93 356.07 49.25 356.37 49.25 356.37
108 11.5 0.5 16.74 388.26 16.85 388.37 16.85 388.37
Verification Manual — 131
20 Thermal Loading on a Simply Supported Rectangular Plate
Bending Moments along X = 5.5
ElementNumber X Y
TheoreticalMoment(Pound-in/in)
STAAD BASICSOLVERMoment
(Pound-in/in)
STAADADVANCEDSOLVER
Moment (Pound-in/in)
Mx My Mx My Mx My
6 5.5 -7.5
373.88 31.12 373.27 32.17 373.27 32.17
18 5.5 -6.5
311.64 93.36 312.19 93.95 312.19 93.95
30 5.5 -5.5
256.83 148.17 257.59 148.94 257.59 148.94
42 5.5 -4.5
211.14 193.87 211.95 194.66 211.95 194.66
54 5.5 -3.5
175.41 229.60 176.20 230.35 176.20 230.35
66 5.5 -2.5
149.47 255.53 150.19 256.25 150.19 256.25
78 5.5 -1.5
132.68 272.32 133.36 273.00 133.36 273.00
90 5.5 -0.5
124.47 280.54 125.11 281.19 125.11 281.19
102 5.5 0.5 124.47 280.54 125.11 281.19 125.11 281.19
114 5.5 1.5 132.68 272.32 133.36 273.00 133.36 273.00
126 5.5 2.5 149.47 255.53 150.19 256.25 150.19 256.25
138 5.5 3.5 175.41 229.59 176.20 230.35 176.20 230.35
150 5.5 4.5 211.14 193.87 211.95 194.66 211.95 194.66
162 5.5 5.5 256.83 148.17 257.59 148.94 257.59 148.94
132 — STAAD.Pro
20 Thermal Loading on a Simply Supported Rectangular Plate
Input File
STAAD SPACE STAAD VER. PROB. 20
* THERMAL LOADING ON A RECTANGULAR PLATE.
UNIT POUND INCH
JOINT COORD
1 0 -8 0 13 12 -8 0
REP 16 0 1 0
ELEM INCI
1 1 2 15 14 TO 12
REP 15 12 13
ELEM PROP
1 TO 192 TH 0.3
CONST
E 10.0E6 ALL
POISS 0.3 ALL
ALPHA 12.0E-6 ALL
SUPP
1 13 209 221 FIXED
2 TO 12 210 TO 220 FIXED BUT MX
14 TO 196 BY 13 26 TO 208 BY 13 FIXED BUT MY
LOAD 1
TEMP LOAD
1 TO 192 TEMP 0 450
PERF ANALY
PRINT JOINT DISP LIST 119 TO 129 7 TO 215 BY 13
PRINT ELEM FORCE LIST 97 TO 108 6 TO 186 BY 12
FINI
Verification Manual — 133
20 Thermal Loading on a Simply Supported Rectangular Plate
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 13:46:47 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD SPACE STAAD VER. PROB. 20INPUT FILE: ver20.STD
2. * THERMAL LOADING ON A SIMPLY SUPPORTED RECTANGULAR PLATE.4. UNIT POUND INCH5. JOINT COORD6. 1 0 -8 0 13 12 -8 07. REP 16 0 1 08. ELEM INCI9. 1 1 2 15 14 TO 1210. REP 15 12 1311. ELEM PROP12. 1 TO 192 TH 0.313. CONST14. E 10.0E6 ALL15. POISS 0.3 ALL16. ALPHA 12.0E-6 ALL17. SUPP18. 1 13 209 221 FIXED19. 2 TO 12 210 TO 220 FIXED BUT MX20. 14 TO 196 BY 13 26 TO 208 BY 13 FIXED BUT MY21. LOAD 122. TEMP LOAD23. 1 TO 192 TEMP 0 45024. PERF ANALY
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 221/ 192/ 56SOLVER USED IS THE OUT-OF-CORE BASIC SOLVER
ORIGINAL/FINAL BAND-WIDTH= 14/ 14/ 80 DOFTOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 1042SIZE OF STIFFNESS MATRIX = 84 DOUBLE KILO-WORDSREQRD/AVAIL. DISK SPACE = 13.9/ 159658.6 MBSTAAD VER. PROB. 20 -- PAGE NO. 2* THERMAL LOADING ON A SIMPLY SUPPORTED RECT25. PRINT JOINT DISP LIST 119 TO 129 7 TO 215 BY 13
JOINT DISP LIST 119STAAD VER. PROB. 20 -- PAGE NO. 3* THERMAL LOADING ON A SIMPLY SUPPORTED RECTJOINT DISPLACEMENT (INCH RADIANS) STRUCTURE TYPE = SPACE------------------
JOINT LOAD X-TRANS Y-TRANS Z-TRANS X-ROTAN Y-ROTAN Z-ROTAN119 1 0.00000 0.00000 0.10040 -0.00193 -0.08944 0.00000120 1 0.00000 0.00000 0.17937 -0.00371 -0.06893 0.00000121 1 0.00000 0.00000 0.23869 -0.00521 -0.05010 0.00000122 1 0.00000 0.00000 0.27991 -0.00635 -0.03262 0.00000123 1 0.00000 0.00000 0.30417 -0.00705 -0.01607 0.00000124 1 0.00000 0.00000 0.31218 -0.00729 0.00000 0.00000125 1 0.00000 0.00000 0.30417 -0.00705 0.01607 0.00000126 1 0.00000 0.00000 0.27991 -0.00635 0.03262 0.00000127 1 0.00000 0.00000 0.23869 -0.00521 0.05010 0.00000128 1 0.00000 0.00000 0.17937 -0.00371 0.06893 0.00000129 1 0.00000 0.00000 0.10040 -0.00193 0.08944 0.000007 1 0.00000 0.00000 0.00000 0.10098 0.00000 0.0000020 1 0.00000 0.00000 0.08974 0.07940 0.00000 0.0000033 1 0.00000 0.00000 0.15969 0.06132 0.00000 0.00000
134 — STAAD.Pro
20 Thermal Loading on a Simply Supported Rectangular Plate
46 1 0.00000 0.00000 0.21318 0.04637 0.00000 0.0000059 1 0.00000 0.00000 0.25310 0.03406 0.00000 0.0000072 1 0.00000 0.00000 0.28181 0.02380 0.00000 0.0000085 1 0.00000 0.00000 0.30109 0.01506 0.00000 0.0000098 1 0.00000 0.00000 0.31218 0.00729 0.00000 0.00000111 1 0.00000 0.00000 0.31579 0.00000 0.00000 0.00000124 1 0.00000 0.00000 0.31218 -0.00729 0.00000 0.00000137 1 0.00000 0.00000 0.30109 -0.01506 0.00000 0.00000150 1 0.00000 0.00000 0.28181 -0.02380 0.00000 0.00000163 1 0.00000 0.00000 0.25310 -0.03406 0.00000 0.00000176 1 0.00000 0.00000 0.21318 -0.04637 0.00000 0.00000189 1 0.00000 0.00000 0.15969 -0.06132 0.00000 0.00000202 1 0.00000 0.00000 0.08974 -0.07940 0.00000 0.00000215 1 0.00000 0.00000 0.00000 -0.10098 0.00000 0.00000************** END OF LATEST ANALYSIS RESULT **************26. PRINT ELEM STRESS LIST 97 TO 108 6 TO 186 BY 12
ELEM STRESS LIST 97STAAD VER. PROB. 20 -- PAGE NO. 4* THERMAL LOADING ON A SIMPLY SUPPORTED RECTELEMENT STRESSES FORCE,LENGTH UNITS= POUN INCH----------------
STRESS = FORCE/UNIT WIDTH/THICK, MOMENT = FORCE-LENGTH/UNIT WIDTHELEMENT LOAD SQX SQY MX MY MXY
VONT VONB SX SY SXYTRESCAT TRESCAB
97 1 -2.00 -0.08 -16.85 -388.37 16.5325419.74 25419.74 0.00 0.00 0.0025939.96 25939.96
TOP : SMAX= -1074.52 SMIN=-25939.96 TMAX= 12432.72 ANGLE= 2.5BOTT: SMAX= 25939.96 SMIN= 1074.52 TMAX= 12432.72 ANGLE= -87.5
98 1 -1.69 -0.20 -49.25 -356.37 15.2722367.84 22367.84 0.00 0.00 0.0023808.31 23808.31
TOP : SMAX= -3232.73 SMIN=-23808.31 TMAX= 10287.79 ANGLE= 2.8BOTT: SMAX= 23808.31 SMIN= 3232.73 TMAX= 10287.79 ANGLE= -87.2
99 1 -1.23 -0.23 -77.92 -328.01 12.9219844.14 19844.14 0.00 0.00 0.0021911.49 21911.49
TOP : SMAX= -5150.16 SMIN=-21911.49 TMAX= 8380.67 ANGLE= 3.0BOTT: SMAX= 21911.49 SMIN= 5150.16 TMAX= 8380.67 ANGLE= -87.0
100 1 -0.78 -0.21 -100.93 -305.20 9.7617989.87 17989.87 0.00 0.00 0.0020377.92 20377.92
TOP : SMAX= -6697.43 SMIN=-20377.92 TMAX= 6840.24 ANGLE= 2.7BOTT: SMAX= 20377.92 SMIN= 6697.43 TMAX= 6840.24 ANGLE= -87.3
101 1 -0.42 -0.16 -116.93 -289.32 6.0516820.57 16820.57 0.00 0.00 0.0019302.28 19302.28
TOP : SMAX= -7780.89 SMIN=-19302.28 TMAX= 5760.70 ANGLE= 2.0BOTT: SMAX= 19302.28 SMIN= 7780.89 TMAX= 5760.70 ANGLE= -88.0
102 1 -0.13 -0.13 -125.11 -281.19 2.0516269.07 16269.07 0.00 0.00 0.0018747.84 18747.84
TOP : SMAX= -8338.78 SMIN=-18747.84 TMAX= 5204.53 ANGLE= 0.8BOTT: SMAX= 18747.84 SMIN= 8338.78 TMAX= 5204.53 ANGLE= -89.2
103 1 0.13 -0.13 -125.11 -281.19 -2.0516269.07 16269.07 0.00 0.00 0.0018747.84 18747.84
TOP : SMAX= -8338.78 SMIN=-18747.84 TMAX= 5204.53 ANGLE= -0.8BOTT: SMAX= 18747.84 SMIN= 8338.78 TMAX= 5204.53 ANGLE= 89.2
104 1 0.42 -0.16 -116.93 -289.32 -6.0516820.57 16820.57 0.00 0.00 0.0019302.28 19302.28
TOP : SMAX= -7780.89 SMIN=-19302.28 TMAX= 5760.70 ANGLE= -2.0BOTT: SMAX= 19302.28 SMIN= 7780.89 TMAX= 5760.70 ANGLE= 88.0
STAAD VER. PROB. 20 -- PAGE NO. 5
Verification Manual — 135
20 Thermal Loading on a Simply Supported Rectangular Plate
* THERMAL LOADING ON A SIMPLY SUPPORTED RECTELEMENT STRESSES FORCE,LENGTH UNITS= POUN INCH----------------
STRESS = FORCE/UNIT WIDTH/THICK, MOMENT = FORCE-LENGTH/UNIT WIDTHELEMENT LOAD SQX SQY MX MY MXY
VONT VONB SX SY SXYTRESCAT TRESCAB
105 1 0.78 -0.21 -100.93 -305.20 -9.7617989.87 17989.87 0.00 0.00 0.0020377.92 20377.92
TOP : SMAX= -6697.43 SMIN=-20377.92 TMAX= 6840.24 ANGLE= -2.7BOTT: SMAX= 20377.92 SMIN= 6697.43 TMAX= 6840.24 ANGLE= 87.3
106 1 1.23 -0.23 -77.92 -328.01 -12.9219844.14 19844.14 0.00 0.00 0.0021911.49 21911.49
TOP : SMAX= -5150.16 SMIN=-21911.49 TMAX= 8380.67 ANGLE= -3.0BOTT: SMAX= 21911.49 SMIN= 5150.16 TMAX= 8380.67 ANGLE= 87.0
107 1 1.69 -0.20 -49.25 -356.37 -15.2722367.84 22367.84 0.00 0.00 0.0023808.31 23808.31
TOP : SMAX= -3232.73 SMIN=-23808.31 TMAX= 10287.79 ANGLE= -2.8BOTT: SMAX= 23808.31 SMIN= 3232.73 TMAX= 10287.79 ANGLE= 87.2
108 1 2.00 -0.08 -16.85 -388.37 -16.5325419.74 25419.74 0.00 0.00 0.0025939.96 25939.96
TOP : SMAX= -1074.52 SMIN=-25939.96 TMAX= 12432.72 ANGLE= -2.5BOTT: SMAX= 25939.96 SMIN= 1074.52 TMAX= 12432.72 ANGLE= 87.56 1 0.34 -4.36 -373.27 -32.17 -31.51
24160.11 24160.11 0.00 0.00 0.0025076.87 25076.87
TOP : SMAX= -1951.93 SMIN=-25076.87 TMAX= 11562.47 ANGLE= -84.8BOTT: SMAX= 25076.87 SMIN= 1951.93 TMAX= 11562.47 ANGLE= 5.2
18 1 0.74 -2.75 -312.19 -93.95 -29.1918798.88 18798.88 0.00 0.00 0.0021068.45 21068.45
TOP : SMAX= -6007.83 SMIN=-21068.45 TMAX= 7530.31 ANGLE= -82.5BOTT: SMAX= 21068.45 SMIN= 6007.83 TMAX= 7530.31 ANGLE= 7.5
30 1 0.67 -1.03 -257.59 -148.94 -25.1915213.03 15213.03 0.00 0.00 0.0017542.96 17542.96
TOP : SMAX= -9558.82 SMIN=-17542.96 TMAX= 3992.07 ANGLE= -77.6BOTT: SMAX= 17542.96 SMIN= 9558.82 TMAX= 3992.07 ANGLE= 12.4
42 1 0.38 -0.06 -211.95 -194.66 -20.3613792.44 13792.44 0.00 0.00 0.0015028.62 15028.62
TOP : SMAX=-12079.03 SMIN=-15028.62 TMAX= 1474.80 ANGLE= -56.5BOTT: SMAX= 15028.62 SMIN= 12079.03 TMAX= 1474.80 ANGLE= 33.5
STAAD VER. PROB. 20 -- PAGE NO. 6* THERMAL LOADING ON A SIMPLY SUPPORTED RECTELEMENT STRESSES FORCE,LENGTH UNITS= POUN INCH----------------
STRESS = FORCE/UNIT WIDTH/THICK, MOMENT = FORCE-LENGTH/UNIT WIDTHELEMENT LOAD SQX SQY MX MY MXY
VONT VONB SX SY SXYTRESCAT TRESCAB
54 1 0.12 0.39 -176.20 -230.35 -15.4014020.85 14020.85 0.00 0.00 0.0015628.28 15628.28
TOP : SMAX=-11474.99 SMIN=-15628.28 TMAX= 2076.65 ANGLE= -14.8BOTT: SMAX= 15628.28 SMIN= 11474.99 TMAX= 2076.65 ANGLE= 75.2
66 1 -0.02 0.49 -150.19 -256.25 -10.6614918.57 14918.57 0.00 0.00 0.0017154.23 17154.23
TOP : SMAX= -9942.06 SMIN=-17154.23 TMAX= 3606.09 ANGLE= -5.7BOTT: SMAX= 17154.23 SMIN= 9942.06 TMAX= 3606.09 ANGLE= 84.3
78 1 -0.09 0.36 -133.36 -273.00 -6.23
136 — STAAD.Pro
20 Thermal Loading on a Simply Supported Rectangular Plate
15779.24 15779.24 0.00 0.00 0.0018218.24 18218.24
TOP : SMAX= -8871.89 SMIN=-18218.24 TMAX= 4673.17 ANGLE= -2.5BOTT: SMAX= 18218.24 SMIN= 8871.89 TMAX= 4673.17 ANGLE= 87.5
90 1 -0.13 0.13 -125.11 -281.19 -2.0516269.07 16269.07 0.00 0.00 0.0018747.84 18747.84
TOP : SMAX= -8338.78 SMIN=-18747.84 TMAX= 5204.53 ANGLE= -0.8BOTT: SMAX= 18747.84 SMIN= 8338.78 TMAX= 5204.53 ANGLE= 89.2
102 1 -0.13 -0.13 -125.11 -281.19 2.0516269.07 16269.07 0.00 0.00 0.0018747.84 18747.84
TOP : SMAX= -8338.78 SMIN=-18747.84 TMAX= 5204.53 ANGLE= 0.8BOTT: SMAX= 18747.84 SMIN= 8338.78 TMAX= 5204.53 ANGLE= -89.2
114 1 -0.09 -0.36 -133.36 -273.00 6.2315779.24 15779.24 0.00 0.00 0.0018218.24 18218.24
TOP : SMAX= -8871.89 SMIN=-18218.24 TMAX= 4673.17 ANGLE= 2.5BOTT: SMAX= 18218.24 SMIN= 8871.89 TMAX= 4673.17 ANGLE= -87.5
126 1 -0.02 -0.49 -150.19 -256.25 10.6614918.57 14918.57 0.00 0.00 0.0017154.23 17154.23
TOP : SMAX= -9942.06 SMIN=-17154.23 TMAX= 3606.09 ANGLE= 5.7BOTT: SMAX= 17154.23 SMIN= 9942.06 TMAX= 3606.09 ANGLE= -84.3
138 1 0.12 -0.39 -176.20 -230.35 15.4014020.85 14020.85 0.00 0.00 0.0015628.28 15628.28
TOP : SMAX=-11474.99 SMIN=-15628.28 TMAX= 2076.65 ANGLE= 14.8BOTT: SMAX= 15628.28 SMIN= 11474.99 TMAX= 2076.65 ANGLE= -75.2
STAAD VER. PROB. 20 -- PAGE NO. 7* THERMAL LOADING ON A SIMPLY SUPPORTED RECTELEMENT STRESSES FORCE,LENGTH UNITS= POUN INCH----------------
STRESS = FORCE/UNIT WIDTH/THICK, MOMENT = FORCE-LENGTH/UNIT WIDTHELEMENT LOAD SQX SQY MX MY MXY
VONT VONB SX SY SXYTRESCAT TRESCAB
150 1 0.38 0.06 -211.95 -194.66 20.3613792.44 13792.44 0.00 0.00 0.0015028.62 15028.62
TOP : SMAX=-12079.03 SMIN=-15028.62 TMAX= 1474.80 ANGLE= 56.5BOTT: SMAX= 15028.62 SMIN= 12079.03 TMAX= 1474.80 ANGLE= -33.5
162 1 0.67 1.03 -257.59 -148.94 25.1915213.03 15213.03 0.00 0.00 0.0017542.96 17542.96
TOP : SMAX= -9558.82 SMIN=-17542.96 TMAX= 3992.07 ANGLE= 77.6BOTT: SMAX= 17542.96 SMIN= 9558.82 TMAX= 3992.07 ANGLE= -12.4
174 1 0.74 2.75 -312.19 -93.95 29.1918798.88 18798.88 0.00 0.00 0.0021068.45 21068.45
TOP : SMAX= -6007.83 SMIN=-21068.45 TMAX= 7530.31 ANGLE= 82.5BOTT: SMAX= 21068.45 SMIN= 6007.83 TMAX= 7530.31 ANGLE= -7.5
186 1 0.34 4.36 -373.27 -32.17 31.5124160.11 24160.11 0.00 0.00 0.0025076.87 25076.87
TOP : SMAX= -1951.93 SMIN=-25076.87 TMAX= 11562.47 ANGLE= 84.8BOTT: SMAX= 25076.87 SMIN= 1951.93 TMAX= 11562.47 ANGLE= -5.2
**** MAXIMUM STRESSES AMONG SELECTED PLATES AND CASES ****MAXIMUM MINIMUM MAXIMUM MAXIMUM MAXIMUMPRINCIPAL PRINCIPAL SHEAR VONMISES TRESCASTRESS STRESS STRESS STRESS STRESS
2.593996E+04 -2.593996E+04 1.243272E+04 2.541974E+04 2.593996E+04PLATE NO. 97 97 97 97 97CASE NO. 1 1 1 1 1********************END OF ELEMENT FORCES********************27. FINI
Verification Manual — 137
20 Thermal Loading on a Simply Supported Rectangular Plate
STAAD VER. PROB. 20 -- PAGE NO. 8* THERMAL LOADING ON A SIMPLY SUPPORTED RECTSTAAD VER. PROB. 20 -- PAGE NO. 9* THERMAL LOADING ON A SIMPLY SUPPORTED RECT
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 13:46:48 ****
************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
STAAD VER. PROB. 20 -- PAGE NO. 10* THERMAL LOADING ON A SIMPLY SUPPORTED RECT
Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb
138 — STAAD.Pro
20 Thermal Loading on a Simply Supported Rectangular Plate
03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 139
20 Thermal Loading on a Simply Supported Rectangular Plate
140 — STAAD.Pro
20 Thermal Loading on a Simply Supported Rectangular Plate
NOTES
21 Deflection Calculation Through Pushover Anal-ysis
PurposeCompare theoretical answers to the STAAD solution.
ReferenceHand calculation.
Problem
A transverse load P is applied to a cantilever member and increased until themember fails.
Geometry & Loading
Member length = 24 inch
Member Properties
Section = Wide flange W16X77
Material = Steel
Expected yield strength = 36 ksi
Verification Manual — 141
Moment Hinge Property
Comparison
Results from STAAD.Pro
The analysis results are saved at an interval of 0.1 inch deflection of thecantilever tip.
Capacity curve as reported by STAAD.Pro
142 — STAAD.Pro
21 Deflection Calculation Through Pushover Analysis
Tabular form of the different points in Capacity curve as reported bySTAAD.Pro
Load Step Displacement in Base Shear kip
1 0 0.153
2 0.001 1.153
3 0.078 57.837
4 0.136 61.953
5 0.237 63.859
6 0.338 65.765
7 0.439 67.671
8 0.54 69.578
9 0.641 71.484
10 0.742 73.39
11 0.843 75.296
12 0.945 77.202
13 1.045 79.096
14 1.057 79.32
15 1.057 21.462
Results from hand calculation
At Load Step 3
Equation of elastic deflection at cantilever tip
δz = PL3/3EI +PL/GAv
P = 57.837 kip, l = 24 in, E = 29000 ksi, I = 138.0 in4, G = 11154ksi, Av = 10.4323 in2
Thus elastic deformation
δz elastic = [57.837 x 243 / (3 x 29000 x 138)] + [57.837 x 24 /
(11154 x 10.4323)] = 0.066 + 0.012 = 0.078 inch
Verification Manual — 143
21 Deflection Calculation Through Pushover Analysis
At Load Step 14
Equation of elastic deflection at cantilever tip
δz = PL3/3EI +PL/GAv
P = 79.32 kip, l = 24 inch, E = 29000 ksi, I = 138.0 inP4, G = 11154ksi, Av = 10.4323 in2
Thus elastic deformation at cantilever tip
δz elastic= [79.32 x 243 / (3 x 29000 x 138)] + [79.32 x 24 / (11154 x
10.4323)] = 0.091 + 0.016 = 0.107 inch
Plastic rotation = 0.04 radian.
Since STAAD.Pro assumes small displacements (sinθ = θ), plastic deformationat cantilever tip
δz plastic = l x θ = 24 x 0.04 = 0.96 inch
Total deflection = δz elastic + δz plastic = 0.107 + 0.96 = 1.067 inch
Comparison of Results in tabular form
LoadStep
Force P (freeend) kips
Deflection (free end) inPercent Dif-ferenceSTAAD.Pro
Advanced SolverHand Cal-culation
3 57.837 0.078 0.078 0%
14 79.32 1.057 1.067 0.94%
Note: The deflection results from STAAD shown in the above table wereobtained in the post-processing mode – Pushover-Node Results page.
Pushover analysis can be done through the Advanced Analysis Engine only.
Input File
STAAD SPACE
START JOB INFORMATION
ENGINEER DATE 20-JUL-07
END JOB INFORMATION
INPUT WIDTH 79
144 — STAAD.Pro
21 Deflection Calculation Through Pushover Analysis
UNIT INCHES KIP
JOINT COORDINATES
1 0 0 0; 2 0 24 0;
MEMBER INCIDENCES
1 1 2;
DEFINE MATERIAL START
ISOTROPIC STEEL
E 29000
POISSON 0.3
DENSITY 0.000283
ALPHA 6.5E-006
DAMP 0.03
END DEFINE MATERIAL
MEMBER PROPERTY AMERICAN
1 TABLE ST W16X77
CONSTANTS
MATERIAL STEEL ALL
SUPPORTS
1 FIXED
DEFINE PUSHOVER DATA
FRAME 2
FYE 36.000000 ALL
HINGE PROPERTY MOMENT
TYPE 1
A 0 0 B 1 1 C 11.0 1.30 D 11.0 0.32 E 15.0 0.32 YM 1480YR 0.004
IO 2.0 LS 7.0 CP 10.5
HINGE TYPE 1 MEMBER 1
GNONL 1
DISP Z 2.0 JOINT 2
LOADING PATTERN 1
LDSTEP 1
Verification Manual — 145
21 Deflection Calculation Through Pushover Analysis
SPECTRUM PARAMETERS
DAMPING 2.0000
SC 4
SS 1.1
S1 1.6
SAVE LOADSTEP RESULT DISP 0.1
END PUSHOVER DATA
LOAD 1 LOADTYPE GRAVITY
SELFWEIGHT Z 1
LOAD 2 LOADTYPE PUSH
JOINT LOAD
2 FZ 1
PERFORM PUSHOVER ANALYSIS
FINISH
146 — STAAD.Pro
21 Deflection Calculation Through Pushover Analysis
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 14:20:50 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD SPACEINPUT FILE: ver21.STD
2. START JOB INFORMATION3. ENGINEER DATE 20-JUL-074. END JOB INFORMATION5. INPUT WIDTH 796. UNIT INCHES KIP7. JOINT COORDINATES8. 1 0 0 0; 2 0 24 09. MEMBER INCIDENCES10. 1 1 211. DEFINE MATERIAL START12. ISOTROPIC STEEL13. E 2900014. POISSON 0.315. DENSITY 0.00028316. ALPHA 6.5E-00617. DAMP 0.0318. END DEFINE MATERIAL19. MEMBER PROPERTY AMERICAN20. 1 TABLE ST W16X7721. CONSTANTS22. MATERIAL STEEL ALL23. SUPPORTS24. 1 FIXED25. DEFINE PUSHOVER DATA26. FRAME 227. FYE 36.000000 ALL28. HINGE PROPERTY MOMENT29. TYPE 130. A 0 0 B 1 1 C 11.0 1.30 D 11.0 0.32 E 15.0 0.32 YM 1480 YR 0.00431. IO 2.0 LS 7.0 CP 10.532. HINGE TYPE 1 MEMBER 133. GNONL 134. DISP Z 2.0 JOINT 235. LOADING PATTERN 136. LDSTEP 137. SPECTRUM PARAMETERS38. DAMPING 2.000039. SC 440. SS 1.1STAAD SPACE -- PAGE NO. 241. S1 1.642. SAVE LOADSTEP RESULT DISP 0.143. END PUSHOVER DATA44. LOAD 1 LOADTYPE GRAVITY45. SELFWEIGHT Z 146. LOAD 2 LOADTYPE PUSH47. JOINT LOAD48. 2 FZ 149. PERFORM PUSHOVER ANALYSIS
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 2/ 1/ 1SOLVER USED IS THE IN-CORE ADVANCED SOLVER
Verification Manual — 147
21 Deflection Calculation Through Pushover Analysis
TOTAL PRIMARY LOAD CASES = 2, TOTAL DEGREES OF FREEDOM = 6NUMBER OF MODES REQUESTED = 1NUMBER OF EXISTING MASSES IN THE MODEL = 3NUMBER OF MODES THAT WILL BE USED = 1*** EIGENSOLUTION : ADVANCED METHOD ***STAAD SPACE -- PAGE NO. 3
CALCULATED FREQUENCIES FOR LOAD CASE 3MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC)1 306.356 0.00326
MODAL WEIGHT (MODAL MASS TIMES g) IN KIPMODE X Y Z
1 4.391674E-64 2.349593E-61 7.674960E-02PARTICIPATION FACTORS
MASS PARTICIPATION FACTORS IN PERCENT--------------------------------------
MODE X Y Z SUMM-X SUMM-Y SUMM-Z1 0.00 0.00100.00 0.000 0.000 100.000
*** WARNING : STRUCTURE HAS REACHED AN UNSTABLE STATE WHEREA VERY SMALL INCREASE IN PUSH LOAD IS CAUSING LARGE DISPLACEMENT.
50. FINISH*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 14:20:51 ****
STAAD SPACE -- PAGE NO. 4************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
STAAD SPACE -- PAGE NO. 5Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb
148 — STAAD.Pro
21 Deflection Calculation Through Pushover Analysis
02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
Verification Manual — 149
21 Deflection Calculation Through Pushover Analysis
150 — STAAD.Pro
21 Deflection Calculation Through Pushover Analysis
NOTES
22 Fixed – Fixed Beam Excited by Harmonic Dis-tributed Load
OBJECTIVETo calculate the deflections at 2 points along the beam at steady-statecondition.
REFERENCE
1. Blevins, R. D., “Formulas for natural Frequency and Mode Shape,” VanNostrand Reinhold, 1979, pp 108, 455-486.
2. Warburton, G. B., “The Dynamical Behavior of Structures,” PergamonPress, 1964, pp. 10-15, 85, 86.
PROBLEMDetermine the steady-state displacements of the quarter and mid-span pointsof a fixed-fixed beam subjected to a parabolically varying distributed loadoperating at a 7.5 Hz frequency.
Beam with harmonic distributed load
Verification Manual — 151
Model: divide span [email protected]”
GIVENE = 10.0x106 psi
L = 200 inches
I = 2/3 in4
A = 2 in2
Po = 0.1 lbf/in3
g = 386.4 in/sec2
The DYNRE2 run utilities all 19 modes calculated by STAAD (Steady Stateanalysis) for which a value of 1.0x10-10times critical damping is assigned. Asingle forcing frequency equal to 7.5 Hz is specified for the distributed load.This load is distributed to the nodes by calculating the total integrated loadfor each beam and lumping one-half of this force to the respective I and jnodes.
Theoretical Solution
The theoretical solution for this example is taken from:
152 — STAAD.Pro
22 Fixed – Fixed Beam Excited by Harmonic Distributed Load
1. Blevins, R. D., “Formulas for natural Frequency and Mode Shape,” VanNostrand Reinhold, 1979, pp 108, 455-486.
2. Warburton, G. B., “The Dynamical Behavior of Structures,” PergamonPress, 1964, pp. 10-15, 85, 86.
The natural frequencies of the system are calculated using the equations fromreference 1 page 108 and reference 2 page 85.
Where:
m = ρA/g
fi = 4.5156271*10-1λi
2
λisatisfies the characteristic equation:
cosλ coshλ - 1 = 0
i λi ωi fi1 4.730041 63.47865 10.10294
2 7.853205 174.9814 27.84915
3 10.99561 343.0334 54.59546
4 14.13717 567.0517 90.24907
5 17.27876 847.0773 134.8165
6 20.42035 1183.108 188.2975
7 23.56194 1575.144 250.6919
8 26.70354 2023.185 321.9998
The mode shapes are:
Where
Verification Manual — 153
22 Fixed – Fixed Beam Excited by Harmonic Distributed Load
The response of mode i to a harmonic force:
ηi =
Where ψi is the response phase lag relative to the applied force and c is thedamping.
Since c = 0.0, ψi = 0.0
Upon substitution and rearranging terms:
From reference 1, page 466, case c and page 467, case 29:
Since the load is symmetric, this expression is zero for I = 2, 4, 6 …;
Therefore, i = 1,3,5……, and: (-1)i = -1
And from the reference, betai = lambdai/l
So:
From Reference 1, page 457 case 5:
Therefore:
154 — STAAD.Pro
22 Fixed – Fixed Beam Excited by Harmonic Distributed Load
ω = 7.5(2π) = 47.1239 radians/sec
i λi ωi ηi(t)
1 4.730041 63.47865 -7.63815*10-1sinωt
3 10.99561 343.0334 -2.21457*10-3sinωt
5 17.27876 847.0773 -1.44744*10-4sinωt
7 23.56194 1575.144 -2.24623*10-5sinωt
i σi φ(1/4) φ(1/2)
1 0.9825022 0.8631319 1.5881463
3 0.9999664 1.3708047 -1.4059984
5 0.9999999 -0.5278897 1.4145675
7 1.0000000 -1.3037973 -1.4141982
i φ(¼)ηi(t) φ(1/2)ηi(t)
1 -0.6592727 -1.2130493
Verification Manual — 155
22 Fixed – Fixed Beam Excited by Harmonic Distributed Load
i φ(¼)ηi(t) φ(1/2)ηi(t)
3 -0.0030357 0.0031137
5 0.0000764 -0.0002048
7 0.0000293 -0.0000318
Summation -0.6622028 -1.2101086
COMPARISON
Location Theory STAADAdvanced Solver
Node 6 (X = 50 inches) 0.66220 0.65964
Node 11 (X = 100 inches) 1.21011 1.20545
steady-state displacements of the quarter (Node 6) and mid-span points (Node 11)
Input File
STAAD SPACE
START JOB INFORMATION
ENGINEER DATE 29-MAR-06
END JOB INFORMATION
* FIXED BEAM SUBJECTED TO A HARMONIC LOAD WITH APARABOLIC DISTRIBUTION X
* NUMBER OF NODES21 X
* HIGH NODE NUMBER21 X
* NODES FULLY RESTRAINED 2X
* NUMBER OF BEAM ELEMENTS 20X
* NUMBER OF EIGENVECTORS 19
SET SHEAR
UNIT INCHES POUND
156 — STAAD.Pro
22 Fixed – Fixed Beam Excited by Harmonic Distributed Load
JOINT COORDINATES
1 0 0 0; 2 10 0 0; 3 20 0 0; 4 30 0 0; 5 40 0 0; 6 50 00; 7 60 0 0;
8 70 0 0; 9 80 0 0; 10 90 0 0; 11 100 0 0; 12 110 0 0; 13120 0 0;
14 130 0 0; 15 140 0 0; 16 150 0 0; 17 160 0 0; 18 170 00; 19 180 0 0;
20 190 0 0; 21 200 0 0;
MEMBER INCIDENCES
1 1 2; 2 2 3; 3 3 4; 4 4 5; 5 5 6; 6 6 7; 7 7 8; 8 8 9; 99 10;
10 10 11; 11 11 12; 12 12 13; 13 13 14; 14 14 15; 15 1516; 16 16 17;
17 17 18; 18 18 19; 19 19 20; 20 20 21;
MEMBER PROPERTY AMERICAN
1 TO 20 PRIS AX 2 AY 0 AZ 0 IX 0.001 IY 0.666667 IZ0.166667
SUPPORTS
2 TO 20 FIXED BUT FY MZ
1 21 FIXED
DEFINE MATERIAL START
ISOTROPIC MATERIAL1
E 1E+007
POISSON 0.3
DENSITY 0.0999194
END DEFINE MATERIAL
CONSTANTS
BETA 90 ALL
MATERIAL MATERIAL1 MEMB 1 TO 20
CUT OFF MODE SHAPE 7
CUT OFF FREQUENCY 500
LOAD 1
SELFWEIGHT X 1
Verification Manual — 157
22 Fixed – Fixed Beam Excited by Harmonic Distributed Load
SELFWEIGHT Y 1
SELFWEIGHT Z 1
MODAL CALCULATION REQUESTED
PERFORM STEADY STATE ANALYSIS
BEGIN STEADY FORCE
STEADY FORCE FREQ 7.5 DAMP 1E-010
JOINT LOAD
2 FY 1.8666
3 FY 3.5666
4 FY 5.0666
5 FY 6.3666
6 FY 7.4666
7 FY 8.3666
8 FY 9.0666
9 FY 9.5666
10 FY 9.8666
11 FY 9.9666
12 FY 9.8666
13 FY 9.5666
14 FY 9.0666
15 FY 8.3666
16 FY 7.4666
17 FY 6.3666
18 FY 5.0666
19 FY 3.5666
20 FY 1.8666
END
PRINT JOINT DISPLACEMENTS LIST 6 11
FINISH
158 — STAAD.Pro
22 Fixed – Fixed Beam Excited by Harmonic Distributed Load
***************************************************** ** STAAD.Pro V8i SELECTseries1 ** Version 20.07.06.35 ** Proprietary Program of ** Bentley Systems, Inc. ** Date= JUN 4, 2010 ** Time= 14:21: 2 ** ** USER ID: Bentley Systems, Inc. *****************************************************
1. STAAD SPACEINPUT FILE: ver22.STD
2. START JOB INFORMATION3. ENGINEER DATE 29-MAR-064. END JOB INFORMATION5. * FIXED BEAM SUBJECTED TO A HARMONIC LOAD WITH A PARABOLIC DISTRIBUTION X6. * NUMBER OF NODES 21 X7. * HIGH NODE NUMBER 21 X8. * NODES FULLY RESTRAINED 2 X9. * NUMBER OF BEAM ELEMENTS 20 X10. * NUMBER OF EIGENVECTORS 1911. SET SHEAR12. UNIT INCHES POUND13. JOINT COORDINATES14. 1 0 0 0; 2 10 0 0; 3 20 0 0; 4 30 0 0; 5 40 0 0; 6 50 0 0; 7 60 0 015. 8 70 0 0; 9 80 0 0; 10 90 0 0; 11 100 0 0; 12 110 0 0; 13 120 0 016. 14 130 0 0; 15 140 0 0; 16 150 0 0; 17 160 0 0; 18 170 0 0; 19 180 0 017. 20 190 0 0; 21 200 0 018. MEMBER INCIDENCES19. 1 1 2; 2 2 3; 3 3 4; 4 4 5; 5 5 6; 6 6 7; 7 7 8; 8 8 9; 9 9 1020. 10 10 11; 11 11 12; 12 12 13; 13 13 14; 14 14 15; 15 15 16; 16 16 1721. 17 17 18; 18 18 19; 19 19 20; 20 20 2122. MEMBER PROPERTY AMERICAN23. 1 TO 20 PRIS AX 2 AY 0 AZ 0 IX 0.001 IY 0.666667 IZ 0.16666724. SUPPORTS25. 2 TO 20 FIXED BUT FY MZ26. 1 21 FIXED27. DEFINE MATERIAL START28. ISOTROPIC MATERIAL129. E 1E+00730. POISSON 0.331. DENSITY 0.099919432. END DEFINE MATERIAL33. CONSTANTS34. BETA 90 ALL35. MATERIAL MATERIAL1 MEMB 1 TO 2036. CUT OFF MODE SHAPE 737. CUT OFF FREQUENCY 50038. LOAD 139. SELFWEIGHT X 140. SELFWEIGHT Y 1STAAD SPACE -- PAGE NO. 241. SELFWEIGHT Z 142. MODAL CALCULATION REQUESTED43. PERFORM STEADY STATE ANALYSIS
P R O B L E M S T A T I S T I C S-----------------------------------
NUMBER OF JOINTS/MEMBER+ELEMENTS/SUPPORTS = 21/ 20/ 21SOLVER USED IS THE IN-CORE ADVANCED SOLVER
TOTAL PRIMARY LOAD CASES = 1, TOTAL DEGREES OF FREEDOM = 38NUMBER OF MODES REQUESTED = 7NUMBER OF EXISTING MASSES IN THE MODEL = 19NUMBER OF MODES THAT WILL BE USED = 7*** EIGENSOLUTION : ADVANCED METHOD ***STAAD SPACE -- PAGE NO. 3
Verification Manual — 159
22 Fixed – Fixed Beam Excited by Harmonic Distributed Load
CALCULATED FREQUENCIES FOR LOAD CASE 1MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC)1 10.103 0.098982 27.849 0.035913 54.591 0.018324 90.230 0.011085 134.747 0.007426 188.093 0.005327 250.166 0.00400
MODAL WEIGHT (MODAL MASS TIMES g) IN POUNMODE X Y Z
1 0.000000E+00 2.759074E+01 0.000000E+002 0.000000E+00 1.177398E-26 0.000000E+003 0.000000E+00 5.287477E+00 0.000000E+004 0.000000E+00 2.921260E-28 0.000000E+005 0.000000E+00 2.138447E+00 0.000000E+006 0.000000E+00 5.413313E-30 0.000000E+007 0.000000E+00 1.145139E+00 0.000000E+00
PARTICIPATION FACTORSMASS PARTICIPATION FACTORS IN PERCENT--------------------------------------
MODE X Y Z SUMM-X SUMM-Y SUMM-Z1 0.00 72.67 0.00 0.000 72.666 0.0002 0.00 0.00 0.00 0.000 72.666 0.0003 0.00 13.93 0.00 0.000 86.591 0.0004 0.00 0.00 0.00 0.000 86.591 0.0005 0.00 5.63 0.00 0.000 92.223 0.0006 0.00 0.00 0.00 0.000 92.223 0.0007 0.00 3.02 0.00 0.000 95.239 0.000
44. BEGIN STEADY FORCE45. STEADY FORCE FREQ 7.5 DAMP 1E-01046. JOINT LOADSTAAD SPACE -- PAGE NO. 447. 2 FY 1.866648. 3 FY 3.566649. 4 FY 5.066650. 5 FY 6.366651. 6 FY 7.466652. 7 FY 8.366653. 8 FY 9.066654. 9 FY 9.566655. 10 FY 9.866656. 11 FY 9.966657. 12 FY 9.866658. 13 FY 9.566659. 14 FY 9.066660. 15 FY 8.366661. 16 FY 7.466662. 17 FY 6.366663. 18 FY 5.066664. 19 FY 3.566665. 20 FY 1.866666. ENDSTAAD SPACE -- PAGE NO. 5
7 MODES (EIGENVECTORS) HAVE BEEN SELECTED.MODE NATURAL FREQUENCY GENERALIZED WEIGHT DAMPING DAMPED FREQUENCYNO. (HZ) (RAD/SEC) (WEIGHT) (MASS) COEFFICIENT (HZ)
1 1.010292E+01 6.347852E+01 1.584634E+01 4.104327E-02 1.000000E-10 1.010292E+012 2.784865E+01 1.749782E+02 1.763389E+01 4.567317E-02 1.000000E-10 2.784865E+013 5.459144E+01 3.430081E+02 1.757978E+01 4.553302E-02 1.000000E-10 5.459144E+014 9.022966E+01 5.669297E+02 1.788088E+01 4.631289E-02 1.000000E-10 9.022966E+015 1.347470E+02 8.466406E+02 1.901368E+01 4.924693E-02 1.000000E-10 1.347470E+026 1.880927E+02 1.181821E+03 1.837854E+01 4.760188E-02 1.000000E-10 1.880927E+027 2.501660E+02 1.571840E+03 1.756698E+01 4.549988E-02 1.000000E-10 2.501660E+02
PARTICIPATION FACTORS FOR EACH MODEMODE NO. X Y Z MX MY MZ
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22 Fixed – Fixed Beam Excited by Harmonic Distributed Load
1 0.000000E+00 0.218577E+04 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+002 0.000000E+00 0.427319E-10 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+003 0.000000E+00 0.382113E+03 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+004 0.000000E+00 0.414481E-11 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+005 0.000000E+00 0.148269E+03 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+006 0.000000E+00 0.626353E-12 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+007 0.000000E+00 0.829074E+02 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00
67. PRINT JOINT DISPLACEMENTS LIST 6 11JOINT DISPLACE LIST 6STAAD SPACE -- PAGE NO. 6JOINT DISPLACEMENT (INCH RADIANS) STRUCTURE TYPE = SPACE------------------
JOINT LOAD X-TRANS Y-TRANS Z-TRANS X-ROTAN Y-ROTAN Z-ROTAN6 1 0.00000 0.65963 0.00000 0.00000 0.00000 0.0183111 1 0.00000 1.20545 0.00000 0.00000 0.00000 0.00000
************** END OF LATEST ANALYSIS RESULT **************68. FINISH
*********** END OF THE STAAD.Pro RUN *************** DATE= JUN 4,2010 TIME= 14:21: 2 ****
STAAD SPACE -- PAGE NO. 7************************************************************* For questions on STAAD.Pro, please contact ** Bentley Systems Offices at the following locations ** ** Telephone Web / Email ** ** USA: +1 (714)974-2500 ** UK +44(1454)207-000 ** SINGAPORE +65 6225-6158 ** EUROPE +31 23 5560560 ** INDIA +91(033)4006-2021 ** JAPAN +81(03)5952-6500 http://www.ctc-g.co.jp ** CHINA +86 10 5929 7000 ** THAILAND +66(0)2645-1018/19 [email protected] ** ** Worldwide http://selectservices.bentley.com/en-US/ ** *************************************************************
STAAD SPACE -- PAGE NO. 8Information about the key files in the current distributionModification Date CRC Size (Bytes) File Name-----------------------------------------------------------------------------------------06/03/2010 0xe740 17874944 SProStaad.exe06/03/2010 0xd500 08515584 SProStaadStl.exe09/19/2003 0x2fc0 00081970 CMesh.dll04/30/2010 0x1941 03792966 dbSectionInterface.dll05/01/2010 0x3d81 00290816 EC3Annex.dll05/01/2010 0x3041 00315392 EuroCode3.dll05/22/2010 0xa781 00086016 IS800SteelDesign.dll01/24/2001 0x9b40 00073728 LoadGen.dll04/16/2010 0x8c01 00011264 MathExtensions.dll09/25/2003 0x6340 00704512 MeshEngine.dll09/22/2003 0xce00 00069632 QuadPlateEngine.dll05/22/2010 0x5801 00073728 SteelCollection.dll05/29/2008 0x77c1 00106572 SurfMeshEngine.dll03/12/2009 0x8cc0 00681984 AISCSections.mdb06/13/2006 0xd4c1 01204224 AISCSectionsRCeco.mdb06/05/2007 0xbc00 00331776 aiscsections_all_editions.mdb01/05/2005 0x4b81 01810432 aiscsteeljoists.mdb01/05/2005 0xcac1 03651584 aitctimbersections.mdb05/01/2008 0xb001 00552960 aluminumsections.mdb01/14/2010 0x40 01019904 AustralianColdFormedSections.mdb10/02/2008 0x40 00520192 AustralianSections.mdb02/20/2008 0xc901 00268288 BritishSections.mdb09/12/2006 0xf4c0 00466944 bscoldformedsections.mdb06/28/2005 0x8201 00327680 butlercoldformedsections.mdb
Verification Manual — 161
22 Fixed – Fixed Beam Excited by Harmonic Distributed Load
02/25/2008 0x2e01 00329728 CanadianSections.mdb09/26/2006 0x5ec1 00280576 CanadianSections_old.mdb05/31/2005 0x9e81 00450560 canadiantimbersections.mdb02/10/2010 0x94c1 00483328 ChineseSections.mdb01/05/2005 0xd6c0 00600064 dutchsections.mdb06/04/2010 0x1941 03596288 EuropeanSections.mdb01/05/2005 0xd301 00202752 frenchsections.mdb01/05/2005 0x11c1 00233472 germansections.mdb11/13/2009 0x16c0 00389120 GOSTColdFormedSections.mdb12/08/2009 0x6ac0 00569344 IndianLegacySections.mdb12/08/2009 0xec1 00942080 IndianSections.mdb01/05/2005 0xd540 00180224 iscoldformedsections.mdb02/21/2008 0xc380 00327680 JapaneseColdFormedSections.mdb03/23/2006 0xa080 00200704 japanesesections.mdb11/09/2005 0x9081 00376832 Kingspancoldformedsections.mdb08/24/2007 0x3ec0 00454656 Koreansections.mdb04/24/2007 0x99c0 00114688 lysaghtcoldformedsections.mdb02/07/2005 0x9a00 00243712 mexicansteeltables.mdb04/19/2007 0x9ec1 00421888 RCecoColdFormedSections.mdb11/20/2009 0xf700 00428034 RussianSections.mdb05/12/2009 0xe001 00237570 SouthAfricanSections.mdb01/06/2005 0x9341 00194560 spanishsections.mdb11/20/2009 0x5100 00368640 STO_ASChMSections.mdb04/19/2007 0x7480 00223232 uscoldformedsections.mdb10/31/2007 0x3700 00133120 VenezuelanSections.mdb-----------------------------------------------------------------------------------------
162 — STAAD.Pro
22 Fixed – Fixed Beam Excited by Harmonic Distributed Load
