Table Of ContentGetting Started with Abaqus/CAE
ABAQUS 2016
GETTING STARTED WITH ABAQUS/CAE
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Getting Started with Abaqus/CAE
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Legal Notices
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CONTENTS
Contents
1. Introduction
The Abaqus products 1.1
GettingstartedwithAbaqus 1.2
Abaqus documentation 1.3
Getting help 1.4
Support 1.5
Aquickreviewofthefiniteelementmethod 1.6
Getting Started 1.7
2. Abaqus Basics
ComponentsofanAbaqusanalysismodel 2.1
IntroductiontoAbaqus/CAE 2.2
Example: creatingamodelofanoverheadhoist 2.3
Comparisonofimplicitandexplicitprocedures 2.4
Summary 2.5
3. Finite Elements and Rigid Bodies
Finite elements 3.1
Rigid bodies 3.2
Summary 3.3
4. Using Continuum Elements
Elementformulationandintegration 4.1
Selectingcontinuum elements 4.2
Example: connectinglug 4.3
Meshconvergence 4.4
RelatedAbaqusexamples 4.5
Suggested reading 4.6
Summary 4.7
5. Using Shell Elements
Elementgeometry 5.1
Shellformulation–thickorthin 5.2
Shellmaterialdirections 5.3
Selectingshellelements 5.4
Example: skew plate 5.5
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RelatedAbaqusexamples 5.6
Suggested reading 5.7
Summary 5.8
6. Using Beam Elements
Beam cross-sectiongeometry 6.1
Formulationandintegration 6.2
Selectingbeam elements 6.3
Example: cargocrane 6.4
RelatedAbaqusexamples 6.5
Suggested reading 6.6
Summary 6.7
7. Linear Dynamics
Introduction 7.1
Damping 7.2
Elementselection 7.3
Meshdesignfordynamics 7.4
Example: cargocraneunderdynamicloading 7.5
Effectofthenumberofmodes 7.6
Effectofdamping 7.7
Comparisonwithdirecttimeintegration 7.8
Otherdynamicprocedures 7.9
RelatedAbaqusexamples 7.10
Suggested reading 7.11
Summary 7.12
8. Nonlinearity
Sources ofnonlinearity 8.1
Thesolutionofnonlinearproblems 8.2
IncludingnonlinearityinanAbaqusanalysis 8.3
Example: nonlinearskewplate 8.4
RelatedAbaqusexamples 8.5
Suggested reading 8.6
Summary 8.7
9. Nonlinear Explicit Dynamics
TypesofproblemssuitedforAbaqus/Explicit 9.1
Explicitdynamicfiniteelementmethods 9.2
Automatictimeincrementationandstability 9.3
Example: stresswavepropagationinabar 9.4
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Dampingofdynamicoscillations 9.5
Energy balance 9.6
Summary 9.7
10. Materials
DefiningmaterialsinAbaqus 10.1
Plasticityinductile metals 10.2
Selectingelementsforelastic-plasticproblems 10.3
Example: connectinglugwithplasticity 10.4
Example: blastloadingonastiffenedplate 10.5
Hyperelasticity 10.6
Example: axisymmetricmount 10.7
Meshdesignforlargedistortions 10.8
Techniquesforreducingvolumetriclocking 10.9
RelatedAbaqusexamples 10.10
Suggested reading 10.11
Summary 10.12
11. Multiple Step Analysis
Generalanalysisprocedures 11.1
Linearperturbationanalysis 11.2
Example: vibrationofapipingsystem 11.3
Restartanalysis 11.4
Example: restartingthepipevibrationanalysis 11.5
RelatedAbaqusexamples 11.6
Summary 11.7
12. Contact
OverviewofcontactcapabilitiesinAbaqus 12.1
Definingsurfaces 12.2
Interactionbetweensurfaces 12.3
DefiningcontactinAbaqus/Standard 12.4
ModelingissuesforrigidsurfacesinAbaqus/Standard 12.5
Abaqus/Standard2Dexample: formingachannel 12.6
GeneralcontactinAbaqus/Standard 12.7
Abaqus/Standard3Dexample: shearingofalapjoint 12.8
DefiningcontactinAbaqus/Explicit 12.9
ModelingconsiderationsinAbaqus/Explicit 12.10
Abaqus/Explicitexample: circuitboarddroptest 12.11
CompatibilitybetweenAbaqus/StandardandAbaqus/Explicit 12.12
RelatedAbaqusexamples 12.13
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Suggested reading 12.14
Summary 12.15
13. Quasi-StaticAnalysiswith Abaqus/Explicit
Analogyforexplicitdynamics 13.1
Loading rates 13.2
Mass scaling 13.3
Energy balance 13.4
Example: formingachannelinAbaqus/Explicit 13.5
Summary 13.6
A. Example Files
Overheadhoistframe A.1
Connecting lug A.2
Skew plate A.3
Cargo crane A.4
Cargocrane–dynamicloading A.5
Nonlinearskew plate A.6
Stresswavepropagationinabar A.7
Connectinglugwithplasticity A.8
Blastloadingonastiffenedplate A.9
Axisymmetric mount A.10
Vibrationofapipingsystem A.11
Forming a channel A.12
Shearingofa lapjoint A.13
Circuitboarddroptest A.14
B. CreatingandAnalyzingaSimpleModelinAbaqus/CAE
UnderstandingAbaqus/CAEmodules B.1
UnderstandingtheModelTree B.2
Creating a part B.3
Creating a material B.4
Definingandassigningsectionproperties B.5
Assemblingthemodel B.6
Definingyouranalysissteps B.7
Applyingaboundaryconditionandaloadtothemodel B.8
Meshingthe model B.9
Creatingandsubmittingananalysisjob B.10
Viewingtheresultsofyouranalysis B.11
Summary B.12
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C. UsingAdditionalTechniquestoCreateandAnalyzeaModelinAbaqus/CAE
Overview C.1
Creatingthe firsthinge piece C.2
Assigningsectionpropertiestothehingepart C.3
Creatingandmodifyingasecondhingepiece C.4
Creating the pin C.5
Assemblingthemodel C.6
Defininganalysis steps C.7
Creatingsurfacestouseincontactinteractions C.8
Definingcontactbetweenregionsofthemodel C.9
Applyingboundaryconditionsandloadstotheassembly C.10
Meshingtheassembly C.11
Creatingandsubmittingajob C.12
Viewingtheresultsofyouranalysis C.13
Summary C.14
D. Viewing theOutput from YourAnalysis
Overview D.1
Whichvariablesareintheoutputdatabase? D.2
Readingtheoutputdatabase D.3
Customizinga modelplot D.4
Displayingthedeformedmodelshape D.5
Displayingandcustomizingacontourplot D.6
Animatinga contourplot D.7
Displayingandcustomizingasymbolplot D.8
Displayingandcustomizingamaterialorientationplot D.9
DisplayingandcustomizinganX–Yplot D.10
OperatingonX–Ydata D.11
Probing anX–Yplot D.12
Displayingresultsalongapath D.13
Summary D.14
E. Flow through a bent tube
Overview E.1
Creatingthemodelforthefluidflowanalysis E.2
CreatingaCFDanalysisjobforthefluidflowanalysis E.3
RunningandmonitoringtheCFDanalysis E.4
ViewingtheCFDanalysisresults E.5
Creatingthefluidmodelforthefluid-structureinteractionanalysis E.6
Creatingthestructuralmodelforthefluid-structureinteractionanalysis E.7
Creatingaco-simulationjobforthefluid-structureinteractionanalysis E.8
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Runningandmonitoringthefluid-structureco-simulationanalysis E.9
Viewingthefluid-structureco-simulationanalysisresults E.10
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Description:B. Creating and Analyzing a Simple Model in Abaqus/CAE The Abaqus/Design and Abaqus/AMS options work with Abaqus/Standard.
