R048ABAQUS资料BUCKW06QTubeCrush.docx
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R048ABAQUS资料BUCKW06QTubeCrush.docx
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R048ABAQUS资料BUCKW06QTubeCrush
Note:
ThisworkshopprovidesinstructionsintermsoftheAbaqusGUIinterface.IfyouwishtousetheAbaqusKeywordsinterfaceinstead,pleaseseethe“Keywords”versionoftheseinstructions.
PleasecompleteeithertheKeywordsorInteractiveversionofthisworkshop.
Goals
∙Performaneigenvaluebucklinganalysis.
∙Understandtheeffectofperturbingameshbasedonthebucklingmodes.
∙Performanexplicitanalysistosimulatethecrushingofatube.
∙UsetheVisualizationmoduletoviewresultsfromeigenvalueandcontactanalyses.
Introduction
Inthisworkshopyouwillstudythecrushingofasquare,steelboxtubebetweentworigidplates.Thetubeisfreeatoneendandisattachedtoarigidplatewitha500kgmassatitsotherend.Boththetubeandtherigidplatewithmasshaveaninitialvelocityof8.9408m/s(20 m.p.h.)justbeforethetube’stopedgeimpactsthefixedrigidplate,asshowninFigureW6–1.Duringimpact,thetubedissipatesalargeamountofinitialkineticenergyintoplasticdeformation.Thegoalofthisanalysisistoevaluatethetube’sabilitytoabsorbkineticenergy.Thissimulationrunsforatotaltimeof5milliseconds.
E=207GPa
ν=0.3
ρ=7800kg/m3
σy=158.7MPa(initial)
shellthickness=1mm
FigureW6–1.Square,steelboxtubecrushedbetweentwoplates
FigureW6–2showsthedetailsofthemodel,includingthesetsusedinthemodel.
FigureW6–2.Modelgeometryandsets.
Preliminaries
1.Entertheworkingdirectoryforthisworkshop:
../buckling/interactive/tubecrush
2.Runthescriptws_advxpl_tubecrush.pyusingthefollowingcommand:
abaquscaestartup=ws_advxpl_tubecrush.py
TheabovecommandcreatesanAbaqus/CAEdatabasenamedCrush.caeinthecurrentdirectory.Thegeometry,materialandmeshdefinitionsforthetubeandtheplateareincludedinthemodelnamedBuckle.Thismodelwillfirstbeusedtoperformtheeigenvaluebucklinganalysisandwilllaterbeeditedtoperformthecrushinganalysis.
Eigenvaluebucklinganalysis
Beforeperformingthecrushinganalysis,youneedtoperformaneigenvaluebucklinganalysistodeterminethebucklingeigenmodesofthestructure.Thesebucklingeigenmodeswillbeusedtointroduceimperfectionsintothegeometryofthetubetoensureaphysicallycorrectdeformedshapeattheendofthecrushinganalysis.
Toensureaphysicallymeaningfulsimulation,thebucklinganalysismustbeperformedonamodelthatissimilartothecrushingmodel.Thetubemustbeloadedinamannersimilartotheactualloadingthatthetubewillexperienceduringcrushing.Thisloadingisachievedbyapplyingaconcentratedforceinthedirectionofthetubeaxis;thisloadisalreadydefinedinthemodel.Thebucklingmodelmustalsoincludetheeffectsofcontactbetweenthetubeandtheplates.Youwillhavetoeditthemodeltoincludetheseeffects,anddefinethejob.
Tocompletetheeigenvaluebucklingmodel,dothefollowing:
1.IntheModelTree,expandtheAssemblycontaineranddouble-clicktheSurfacescontainer.Createageometry-basedsurfaceonthetoprigidplatenamedTopSurf;inthepromptarea,selectthecolorofthesideoftheplatefacingthetube.Similarly,createasurfacenamedBotSurfthatcorrespondstothesideofthelowerplatethatwillcontactthetube.
2.Inthebucklinganalysisfrictionlesscontactisassumedtooccurbetweenthetubeandthetopplate.FrictionlesscontactisthedefaultcontactpropertyinAbaqus.IntheModelTree,double-clicktheInteractionPropertiescontainer;defineacontactpropertynamedNoFric,andacceptthedefaultpropertysettings.
3.Defineacontactinteractionbetweenthetopofthetubeandthetopplate.
a.IntheModelTree,double-clicktheInteractionscontainer.NametheinteractionTopSurf-TubeandchoosetheInitialstep.SelectSurface-to-surfacecontact(Standard)astheinteractiontype,TopSurfasthemastersurface,andTopastheslaveNodeRegion.
b.Bydefault,thecontactconditionsatthestartofalinearperturbationstep(suchasaneigenvaluebucklinganalysis)remainunchangedthroughoutthestep.Therefore,ifyouensurethatthetopnodesofthetubeareincontactwiththetoprigidsurfaceatthebeginningofthestep,thiscontactconstraintwillremainineffectthroughoutthebucklinganalysis.Thus,intheSlaveAdjustmentoptionsoftheEditInteractiondialogbox,specifyanadjustmentzonetoleranceof0.01mtoensureaninitiallyclosedcontactcondition.ClickOKtocompletethecontactinteractiondefinition.
4.Thelowerplatewillbe"glued"tothebottomofthetubeusingatieconstraintasindicatedbelow:
c.IntheModeTree,double-clickConstraints.
d.IntheCreateConstraintdialogboxthatappears,nametheconstraintBotSurf-Tube,selectTieasthetype,andclickContinue.
e.SelectBotSurfasthemastersurfaceandBotastheslaveNodeRegion.
f.ToggleoffTierotationalDOFsandacceptallotherdefaultsintheEditConstraintdialogbox.
5.Youneedtospecifythatadditionaldatabewrittentotheresults(.fil)fileusingtheKeywordsEditor.Youwillwritethenormalizednodaldisplacementscorrespondingtoeachlinearbucklingmode;thesewillbeusedtointroduceimperfectionsinthecrushinganalysis.
g.IntheModelTree,clickmousebutton3onthemodelnamedBuckleandselectEditKeywordsfromthemenuthatappears.
TheEditKeywordsdialogboxappearscontainingtheinputfilethathasbeengeneratedforyourmodel.
h.Onlytextblockswithawhitebackgroundcanbeedited.Usethescrollbarontherightsideofthedialogboxtofindthetextblockwherethe*RESTARToptionislocated(towardthebottomofthefile).Selectthe*RESTARTblock,andclickAddAftertoaddanemptytextblock.
i.Inthenewtextblock,enterthefollowingdatatospecifythatdisplacementshouldbewrittentotheresultsfile:
*NodeFile
U,
j.ClickOKtosaveyourchangesandtoexittheKeywordsEditor.
6.CreateajobforthebucklinganalysisnamedTubeBucklewiththefollowingdescription:
Tubecrush--bucklinganalysis(intheModelTree,double-clickJobs).
7.Saveyourmodeldatabasefile,andsubmitthejobforanalysis(intheModelTree,clickmousebutton3onthejobnameandselectSubmitfromthemenuthatappears).Fromthesamemenu,youcanselectMonitortomonitorthejob’sprogress.
Postprocessingthebucklinganalysis
Whentheanalysisiscomplete,usethefollowingproceduretoviewtheeigenmodesfromthisbucklinganalysisintheVisualizationmodule:
1.IntheModelTree,clickmousebutton3onthejobTubeBuckleandselectResultsfromthemenuthatappearstoopenthefileTubeBuckle.odbintheVisualizationmodule.
2.Fromthemainmenubar,selectTools→DisplayGroup→Create.
3.Inthedialogboxthatappears,selectthepartinstancenamedTUBE-1andclickReplace.
4.ClickDismisstoclosetheCreateDisplayGroupdialogbox.
Observethatthetubealoneisnowdisplayedintheviewport.
5.Plotthedeformedmodelshape.
Thedeformedshapeforthefirsteigenmodewillbedisplayedintheviewport.Adjustyourview,ifnecessary,toseethedeformedconfigurationmoreclearly.
6.Viewthedeformedshapesoftheotherbucklingmodesusingtheframeselector(Result→Step/Frame)ortheframecontrolbuttonsinthecontextbarabovetheviewport.
FigureW6–3showsthefirstandsecondeigenmodesofthesteeltube.
FigureW6–3.Eigenmode1(left)andEigenmode2(right)
Crushinganalysis
Youwillnowmodifythebucklinganalysismodeltocreatethecrushinganalysismodel.Themodelforthecrushinganalysiswillincludegeneralcontactandtheinitialvelocityforthetubethatcausesittoimpactwiththetoprigidsurface.Inaddition,youwillusetheKeywordsEditortospecifythatthemodesfromthebucklinganalysisshouldbeusedtoseedtheimperfectionforthecrushinganalysis.
Beforeyoubeginthemodificationsrequiredforthecrushinganalysis,makeacopyofbucklinganalysismodelasfollows:
intheModelTree,clickmousebutton3onthemodelnamedBuckleandselectCopyModelfromthemenuthatappears.NamethenewmodelCrush.Inthecrushinganalysismodel,deletethekeywordsedit,concentratedload,andcontactinteractionusedintheoriginalbucklinganalysismodel.
Stepdefinition
Theexplicitdynamicsanalysisprocedurewillbeusedinsteadofthelineareigenvaluebucklingone.Thus,replacetheeigenvaluebucklingstepwithanexplicitdynamicsstep:
1.IntheModelTree,clickmousebutton3onthestepnamedTubeBuckleandselectReplacefromthemenuthatappears.Replacethelinearperturbationbucklestepwithageneralexplicitdynamicstep.Givethestepthefollowingdescription:
Impactofsquaretubewithfreedeceleration;andspecifyatimeperiodof0.03seconds.
2.RenamethestepTubeCrush.
Contact
Asthetubecrushes,itbucklesrepeatedly;thus,manyregionsontheinsideandtheoutsideofthetubecontacteachother.Sinceitisdifficulttoestablishbeforehandwhichregionswillbeincontactwithoneanother,wemustallowcontacttooccurinaverygeneralmannersothatanyregionmaycomeintocontact,bothontheinsideandontheoutsideofthetube.Thistypeofcontactcanbeachievedusinggeneralcontact.Theself-contactofthetubehasafrictioncoefficientof0.1;thecontactbetweenthetubeandplateisfrictionless.
1.Createadouble-sidedsurfacenamedTubecorrespondingtothefoursidesofthetube.
2.CreateanewcontactinteractionpropertynamedFric.UsethePenaltyfrictionformulation,andspecifyafrictioncoefficientof0.1.
3.CreateaGeneralcontactinteraction.ChooseFricastheglobalcontactproperty.EdittheindividualpropertyassignmentstoassignNoFricasalocalpropertytotheinteractionb
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