abaqus多层框架结构分析Python命令流及pythonreader下载

pythonreader

from abaqus import *from abaqusConstants import *session.Viewport(name='Viewport: 1', origin=(0.0, 0.0), width=210.744781494141,     height=126.414352416992)session.viewports['Viewport: 1'].makeCurrent()session.viewports['Viewport: 1'].maximize()from caeModules import *from driverUtils import executeOnCaeStartupexecuteOnCaeStartup()session.viewports['Viewport: 1'].partDisplay.geometryOptions.setValues(    referenceRepresentation=ON)Mdb()#: A new model database has been created.#: The model "Model-1" has been created.session.viewports['Viewport: 1'].setValues(displayedObject=None)s = mdb.models['Model-1'].ConstrainedSketch(name='__profile__',     sheetSize=200.0)g, v, d, c = s.geometry, s.vertices, s.dimensions, s.constraintss.setPrimaryObject(option=STANDALONE)s.unsetPrimaryObject()del mdb.models['Model-1'].sketches['__profile__']s1 = mdb.models['Model-1'].ConstrainedSketch(name='__profile__',     sheetSize=20.0)g, v, d, c = s1.geometry, s1.vertices, s1.dimensions, s1.constraintss1.setPrimaryObject(option=STANDALONE)s1.Line(point1=(-6.75, 0.0), point2=(-6.75, 3.3))s1.VerticalConstraint(entity=g[2], addUndoState=False)s1.Line(point1=(-6.75, 3.3), point2=(-6.75, 6.6))s1.VerticalConstraint(entity=g[3], addUndoState=False)s1.ParallelConstraint(entity1=g[2], entity2=g[3], addUndoState=False)s1.Line(point1=(-6.75, 6.6), point2=(-6.75, 9.9))s1.VerticalConstraint(entity=g[4], addUndoState=False)s1.ParallelConstraint(entity1=g[3], entity2=g[4], addUndoState=False)session.viewports['Viewport: 1'].view.setValues(nearPlane=11.3139,     farPlane=26.3985, width=59.7579, height=27.7573, cameraPosition=(14.0678,     -5.39243, 18.8562), cameraTarget=(14.0678, -5.39243, 0))s1.Line(point1=(-2.25, 0.0), point2=(-2.25, 3.3))s1.VerticalConstraint(entity=g[5], addUndoState=False)s1.Line(point1=(-2.25, 3.3), point2=(-2.25, 6.6))s1.VerticalConstraint(entity=g[6], addUndoState=False)s1.ParallelConstraint(entity1=g[5], entity2=g[6], addUndoState=False)s1.Line(point1=(-2.25, 6.6), point2=(-2.25, 9.9))s1.VerticalConstraint(entity=g[7], addUndoState=False)s1.ParallelConstraint(entity1=g[6], entity2=g[7], addUndoState=False)s1.Line(point1=(2.25, 0.0), point2=(2.25, 3.3))s1.VerticalConstraint(entity=g[8], addUndoState=False)s1.Line(point1=(2.25, 3.3), point2=(2.25, 6.6))s1.VerticalConstraint(entity=g[9], addUndoState=False)s1.ParallelConstraint(entity1=g[8], entity2=g[9], addUndoState=False)s1.Line(point1=(2.25, 6.6), point2=(2.25, 9.9))s1.VerticalConstraint(entity=g[10], addUndoState=False)s1.ParallelConstraint(entity1=g[9], entity2=g[10], addUndoState=False)s1.Line(point1=(6.75, 0.0), point2=(6.75, 3.3))s1.VerticalConstraint(entity=g[11], addUndoState=False)s1.Line(point1=(6.75, 3.3), point2=(6.75, 6.6))s1.VerticalConstraint(entity=g[12], addUndoState=False)s1.ParallelConstraint(entity1=g[11], entity2=g[12], addUndoState=False)s1.Line(point1=(6.75, 6.6), point2=(6.75, 9.9))s1.VerticalConstraint(entity=g[13], addUndoState=False)s1.ParallelConstraint(entity1=g[12], entity2=g[13], addUndoState=False)session.viewports['Viewport: 1'].view.fitView()s1.Line(point1=(-6.75, 9.9), point2=(6.75, 9.9))s1.HorizontalConstraint(entity=g[14], addUndoState=False)s1.PerpendicularConstraint(entity1=g[4], entity2=g[14], addUndoState=False)s1.delete(objectList=(g[14], ))s1.Line(point1=(-6.75, 9.9), point2=(-2.25, 9.9))s1.HorizontalConstraint(entity=g[15], addUndoState=False)s1.PerpendicularConstraint(entity1=g[4], entity2=g[15], addUndoState=False)#: Warning: Coincident point selected.s1.Line(point1=(-2.25, 9.9), point2=(2.25, 9.9))s1.HorizontalConstraint(entity=g[16], addUndoState=False)s1.ParallelConstraint(entity1=g[15], entity2=g[16], addUndoState=False)#: Warning: Coincident point selected.s1.Line(point1=(2.25, 9.9), point2=(6.75, 9.9))s1.HorizontalConstraint(entity=g[17], addUndoState=False)s1.ParallelConstraint(entity1=g[16], entity2=g[17], addUndoState=False)s1.Line(point1=(-6.75, 6.6), point2=(-2.25, 6.6))s1.HorizontalConstraint(entity=g[18], addUndoState=False)s1.PerpendicularConstraint(entity1=g[3], entity2=g[18], addUndoState=False)#: Warning: Coincident point selected.s1.Line(point1=(-2.25, 6.6), point2=(2.25, 6.6))s1.HorizontalConstraint(entity=g[19], addUndoState=False)s1.ParallelConstraint(entity1=g[18], entity2=g[19], addUndoState=False)#: Warning: Coincident point selected.s1.Line(point1=(2.25, 6.6), point2=(6.75, 6.6))s1.HorizontalConstraint(entity=g[20], addUndoState=False)s1.ParallelConstraint(entity1=g[19], entity2=g[20], addUndoState=False)s1.Line(point1=(-6.75, 3.3), point2=(-2.25, 3.3))s1.HorizontalConstraint(entity=g[21], addUndoState=False)s1.PerpendicularConstraint(entity1=g[2], entity2=g[21], addUndoState=False)#: Warning: Coincident point selected.s1.Line(point1=(-2.25, 3.3), point2=(6.75, 3.3))s1.HorizontalConstraint(entity=g[22], addUndoState=False)s1.ParallelConstraint(entity1=g[21], entity2=g[22], addUndoState=False)session.viewports['Viewport: 1'].view.setValues(nearPlane=29.6333,     farPlane=37.3306, width=30.4932, height=14.164, cameraPosition=(0.674583,     5.49897, 33.4819), cameraTarget=(0.674583, 5.49897, 0))p = mdb.models['Model-1'].Part(name='Part-1', dimensionality=TWO_D_PLANAR,     type=DEFORMABLE_BODY)p = mdb.models['Model-1'].parts['Part-1']p.BaseWire(sketch=s1)s1.unsetPrimaryObject()p = mdb.models['Model-1'].parts['Part-1']session.viewports['Viewport: 1'].setValues(displayedObject=p)del mdb.models['Model-1'].sketches['__profile__']session.viewports['Viewport: 1'].partDisplay.setValues(sectionAssignments=ON,     engineeringFeatures=ON)session.viewports['Viewport: 1'].partDisplay.geometryOptions.setValues(    referenceRepresentation=OFF)mdb.models['Model-1'].Material(name='Material-1')mdb.models['Model-1'].materials['Material-1'].Elastic(table=((210000000000.0,     0.3), ))mdb.models['Model-1'].Material(name='Material-2')mdb.models['Model-1'].materials['Material-2'].Plastic(table=((345000000.0,     0.0), ))del mdb.models['Model-1'].materials['Material-2']mdb.models['Model-1'].materials['Material-1'].elastic.setValues(table=((    2.1e+15, 0.3), ))mdb.models['Model-1'].materials['Material-1'].Plastic(table=((345000000.0,     0.0), ))mdb.models['Model-1'].materials['Material-1'].elastic.setValues(table=((    210000000000.0, 0.3), ))mdb.models['Model-1'].Material(name='steelbeam')mdb.models['Model-1'].materials['steelbeam'].Elastic(table=((2.1e+15, 0.3), ))a = mdb.models['Model-1'].rootAssemblysession.viewports['Viewport: 1'].setValues(displayedObject=a)session.viewports['Viewport: 1'].assemblyDisplay.setValues(    optimizationTasks=OFF, geometricRestrictions=OFF, stopConditions=OFF)session.viewports['Viewport: 1'].partDisplay.setValues(sectionAssignments=OFF,     engineeringFeatures=OFF)session.viewports['Viewport: 1'].partDisplay.geometryOptions.setValues(    referenceRepresentation=ON)p = mdb.models['Model-1'].parts['Part-1']session.viewports['Viewport: 1'].setValues(displayedObject=p)session.viewports['Viewport: 1'].partDisplay.setValues(sectionAssignments=ON,     engineeringFeatures=ON)session.viewports['Viewport: 1'].partDisplay.geometryOptions.setValues(    referenceRepresentation=OFF)mdb.models['Model-1'].IProfile(name='Profile-1', l=0.11, h=0.22, b1=0.2,     b2=0.2, t1=0.01, t2=0.01, t3=0.008)mdb.models['Model-1'].BeamSection(name='Section-1',     integration=DURING_ANALYSIS, poissonRatio=0.0, profile='Profile-1',     material='Material-1', temperatureVar=LINEAR, consistentMassMatrix=False)mdb.models['Model-1'].BeamSection(name='Section-2',     integration=DURING_ANALYSIS, poissonRatio=0.0, profile='Profile-1',     material='steelbeam', temperatureVar=LINEAR, consistentMassMatrix=False)mdb.models['Model-1'].sections['Section-2'].setValues(poissonRatio=0.0,     temperatureVar=INTERPOLATED)p = mdb.models['Model-1'].parts['Part-1']e = p.edgesedges = e.getSequenceFromMask(mask=('[#1caaab ]', ), )region = p.Set(edges=edges, name='Set-1')p = mdb.models['Model-1'].parts['Part-1']p.SectionAssignment(region=region, sectionName='Section-1', offset=0.0,     offsetType=MIDDLE_SURFACE, offsetField='',     thicknessAssignment=FROM_SECTION)p = mdb.models['Model-1'].parts['Part-1']e = p.edgesedges = e.getSequenceFromMask(mask=('[#35554 ]', ), )region = p.Set(edges=edges, name='Set-2')p = mdb.models['Model-1'].parts['Part-1']p.SectionAssignment(region=region, sectionName='Section-2', offset=0.0,     offsetType=MIDDLE_SURFACE, offsetField='',     thicknessAssignment=FROM_SECTION)session.viewports['Viewport: 1'].view.setValues(nearPlane=30.0466,     farPlane=36.9172, width=27.0111, height=11.9481, viewOffsetX=2.13575,     viewOffsetY=-0.674446)a = mdb.models['Model-1'].rootAssemblysession.viewports['Viewport: 1'].setValues(displayedObject=a)a = mdb.models['Model-1'].rootAssemblya.DatumCsysByDefault(CARTESIAN)p = mdb.models['Model-1'].parts['Part-1']a.Instance(name='Part-1-1', part=p, dependent=ON)session.viewports['Viewport: 1'].assemblyDisplay.setValues(    adaptiveMeshConstraints=ON)mdb.models['Model-1'].StaticStep(name='Step-1', previous='Initial',     timePeriod=63.0, maxNumInc=1000, initialInc=0.2, minInc=1e-05, maxInc=1.0)session.viewports['Viewport: 1'].assemblyDisplay.setValues(step='Step-1')mdb.models['Model-1'].TabularAmplitude(name='Amp-1', timeSpan=STEP,     smooth=SOLVER_DEFAULT, data=((0.0, 0.0), (1.0, 0.15), (2.0, 0.0), (3.0,     -0.15), (4.0, 0.0)))session.viewports['Viewport: 1'].assemblyDisplay.setValues(loads=ON, bcs=ON,     predefinedFields=ON, connectors=ON, adaptiveMeshConstraints=OFF)#: Warning: Cannot continue yet--complete the step or cancel the procedure.a = mdb.models['Model-1'].rootAssemblyv1 = a.instances['Part-1-1'].verticesverts1 = v1.getSequenceFromMask(mask=('[#2 ]', ), )region = a.Set(vertices=verts1, name='Set-1')mdb.models['Model-1'].DisplacementBC(name='BC-1', createStepName='Step-1',     region=region, u1=0.9, u2=UNSET, ur3=UNSET, amplitude=UNSET, fixed=OFF,     distributionType=UNIFORM, fieldName='', localCsys=None)session.viewports['Viewport: 1'].view.setValues(width=24.2895, height=10.7442,     viewOffsetX=0.38821, viewOffsetY=0.0893748)mdb.models['Model-1'].boundaryConditions['BC-1'].setValues(u1=0.09)a = mdb.models['Model-1'].rootAssemblyv1 = a.instances['Part-1-1'].verticesverts1 = v1.getSequenceFromMask(mask=('[#b001 ]', ), )region = a.Set(vertices=verts1, name='Set-2')mdb.models['Model-1'].DisplacementBC(name='BC-2', createStepName='Step-1',     region=region, u1=0.0, u2=0.0, ur3=0.0, amplitude=UNSET, fixed=OFF,     distributionType=UNIFORM, fieldName='', localCsys=None)session.viewports['Viewport: 1'].assemblyDisplay.setValues(mesh=ON, loads=OFF,     bcs=OFF, predefinedFields=OFF, connectors=OFF)session.viewports['Viewport: 1'].assemblyDisplay.meshOptions.setValues(    meshTechnique=ON)p = mdb.models['Model-1'].parts['Part-1']session.viewports['Viewport: 1'].setValues(displayedObject=p)session.viewports['Viewport: 1'].partDisplay.setValues(sectionAssignments=OFF,     engineeringFeatures=OFF, mesh=ON)session.viewports['Viewport: 1'].partDisplay.meshOptions.setValues(    meshTechnique=ON)p = mdb.models['Model-1'].parts['Part-1']p.seedPart(size=0.05, deviationFactor=0.1, minSizeFactor=0.1)p = mdb.models['Model-1'].parts['Part-1']p.generateMesh()a1 = mdb.models['Model-1'].rootAssemblya1.regenerate()a = mdb.models['Model-1'].rootAssemblysession.viewports['Viewport: 1'].setValues(displayedObject=a)session.viewports['Viewport: 1'].assemblyDisplay.setValues(mesh=OFF)session.viewports['Viewport: 1'].assemblyDisplay.meshOptions.setValues(    meshTechnique=OFF)mdb.Job(name='Job-1', model='Model-1', description='', type=ANALYSIS,     atTime=None, waitMinutes=0, waitHours=0, queue=None, memory=90,     memoryUnits=PERCENTAGE, getMemoryFromAnalysis=True,     explicitPrecision=SINGLE, nodalOutputPrecision=SINGLE, echoPrint=OFF,     modelPrint=OFF, contactPrint=OFF, historyPrint=OFF, userSubroutine='',     scratch='', resultsFormat=ODB, multiprocessingMode=DEFAULT, numCpus=1,     numGPUs=0)session.viewports['Viewport: 1'].partDisplay.setValues(sectionAssignments=ON,     engineeringFeatures=ON, mesh=OFF)session.viewports['Viewport: 1'].partDisplay.meshOptions.setValues(    meshTechnique=OFF)p = mdb.models['Model-1'].parts['Part-1']session.viewports['Viewport: 1'].setValues(displayedObject=p)p = mdb.models['Model-1'].parts['Part-1']e = p.edgesedges = e.getSequenceFromMask(mask=('[#1fffff ]', ), )region=p.Set(edges=edges, name='Set-3')p = mdb.models['Model-1'].parts['Part-1']p.assignBeamSectionOrientation(region=region, method=N1_COSINES, n1=(0.0, 0.0,     -1.0))#: Beam orientations have been assigned to the selected regions.a1 = mdb.models['Model-1'].rootAssemblya1.regenerate()a = mdb.models['Model-1'].rootAssemblysession.viewports['Viewport: 1'].setValues(displayedObject=a)mdb.jobs['Job-1'].submit(consistencyChecking=OFF)#: The job input file "Job-1.inp" has been submitted for analysis.#: Job Job-1: Analysis Input File Processor completed successfully.#: Job Job-1: Abaqus/Standard completed successfully.#: Job Job-1 completed successfully. o3 = session.openOdb(name='https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb')#: Model: https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb#: Number of Assemblies: 1#: Number of Assembly instances: 0#: Number of Part instances: 1#: Number of Meshes: 1#: Number of Element Sets: 4#: Number of Node Sets: 6#: Number of Steps: 1session.viewports['Viewport: 1'].setValues(displayedObject=o3)session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    CONTOURS_ON_DEF, ))session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    UNDEFORMED, ))session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    CONTOURS_ON_DEF, ))session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    DEFORMED, ))session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    CONTOURS_ON_DEF, ))a = mdb.models['Model-1'].rootAssemblysession.viewports['Viewport: 1'].setValues(displayedObject=a)session.viewports['Viewport: 1'].assemblyDisplay.setValues(loads=ON, bcs=ON,     predefinedFields=ON, connectors=ON)mdb.models['Model-1'].boundaryConditions['BC-1'].setValues(u1=-0.09)mdb.models['Model-1'].boundaryConditions['BC-1'].setValues(u1=0.09)session.viewports['Viewport: 1'].assemblyDisplay.setValues(loads=OFF, bcs=OFF,     predefinedFields=OFF, connectors=OFF)mdb.jobs['Job-1'].submit(consistencyChecking=OFF)#: The job input file "Job-1.inp" has been submitted for analysis.#: Job Job-1: Analysis Input File Processor completed successfully.#: Job Job-1: Abaqus/Standard completed successfully.#: Job Job-1 completed successfully. o3 = session.openOdb(name='https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb')#: Model: https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb#: Number of Assemblies: 1#: Number of Assembly instances: 0#: Number of Part instances: 1#: Number of Meshes: 1#: Number of Element Sets: 4#: Number of Node Sets: 6#: Number of Steps: 1session.viewports['Viewport: 1'].setValues(displayedObject=o3)session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    DEFORMED, ))session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    CONTOURS_ON_DEF, ))session.viewports['Viewport: 1'].view.setValues(nearPlane=36.4,     farPlane=58.3012, width=14.2306, height=6.29474, viewOffsetX=-1.22599,     viewOffsetY=-0.171657)session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    SYMBOLS_ON_DEF, ))session.viewports['Viewport: 1'].view.setValues(nearPlane=34.9563,     farPlane=59.745, width=27.3406, height=12.0938, viewOffsetX=0.544091,     viewOffsetY=0.176004)session.animationController.setValues(animationType=SCALE_FACTOR, viewports=(    'Viewport: 1', ))session.animationController.play(duration=UNLIMITED)session.animationController.setValues(animationType=NONE)session.animationController.setValues(animationType=SCALE_FACTOR, viewports=(    'Viewport: 1', ))session.animationController.play(duration=UNLIMITED)session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    CONTOURS_ON_DEF, ))session.animationController.setValues(animationType=SCALE_FACTOR, viewports=(    'Viewport: 1', ))session.animationController.play(duration=UNLIMITED)session.animationController.animationOptions.setValues(frameRate=40)session.animationController.setValues(animationType=NONE)session.viewports['Viewport: 1'].view.setValues(nearPlane=37.805,     farPlane=56.8963, width=4.91519, height=2.17418, viewOffsetX=-3.42754,     viewOffsetY=-1.2767)odb = session.odbs['https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb']xyList = xyPlot.xyDataListFromField(odb=odb, outputPosition=NODAL, variable=((    'RF', NODAL, ((COMPONENT, 'RF1'), )), ('U', NODAL, ((COMPONENT, 'U1'), )),     ), nodePick=(('PART-1-1', 1, ('[#2 ]', )), ), )xyp = session.XYPlot('XYPlot-1')chartName = xyp.charts.keys()[0]chart = xyp.charts[chartName]curveList = session.curveSet(xyData=xyList)chart.setValues(curvesToPlot=curveList)session.viewports['Viewport: 1'].setValues(displayedObject=xyp)session.xyPlots[session.viewports['Viewport: 1'].displayedObject.name].setValues(    transform=(1.1236, 0, 0, 0.0112067, 0, 1.1236, 0, 0.0246372, 0, 0, 1.1236,     0, 0, 0, 0, 1))odb = session.odbs['https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb']session.viewports['Viewport: 1'].setValues(displayedObject=odb)session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    CONTOURS_ON_DEF, ))session.viewports['Viewport: 1'].view.setValues(width=5.22353, height=2.31058,     viewOffsetX=-3.43699, viewOffsetY=-1.22888)odb = session.odbs['https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb']xyList = xyPlot.xyDataListFromField(odb=odb, outputPosition=NODAL, variable=((    'RF', NODAL, ((COMPONENT, 'RF1'), )), ('U', NODAL, ((COMPONENT, 'U1'), )),     ), nodePick=(('PART-1-1', 1, ('[#0:2 #1000 ]', )), ), )xyp = session.xyPlots['XYPlot-1']chartName = xyp.charts.keys()[0]chart = xyp.charts[chartName]curveList = session.curveSet(xyData=xyList)chart.setValues(curvesToPlot=curveList)session.viewports['Viewport: 1'].setValues(displayedObject=xyp)session.xyPlots[session.viewports['Viewport: 1'].displayedObject.name].setValues(    transform=(0.889997, 0, 0, -0.011866, 0, 0.889997, 0, -0.0211, 0, 0,     0.889997, 0, 0, 0, 0, 1))odb = session.odbs['https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb']session.viewports['Viewport: 1'].setValues(displayedObject=odb)session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    CONTOURS_ON_DEF, ))session.viewports['Viewport: 1'].view.setValues(nearPlane=34.4854,     farPlane=60.2158, width=31.0281, height=13.725, viewOffsetX=-11.6621,     viewOffsetY=1.59778)session.viewports['Viewport: 1'].view.fitView()session.viewports['Viewport: 1'].view.setValues(nearPlane=38.148,     farPlane=62.8232, width=26.9069, height=11.902, viewOffsetX=3.57426,     viewOffsetY=-0.83418)xy1 = session.xyDataObjects['_U:U1 PI: PART-1-1 N: 77']xy2 = session.xyDataObjects['_RF:RF1 PI: PART-1-1 N: 77']xy3 = combine(xy1, xy2)xyp = session.xyPlots['XYPlot-1']chartName = xyp.charts.keys()[0]chart = xyp.charts[chartName]c1 = session.Curve(xyData=xy3)chart.setValues(curvesToPlot=(c1, ), )session.viewports['Viewport: 1'].setValues(displayedObject=xyp)session.xyPlots[session.viewports['Viewport: 1'].displayedObject.name].setValues(    transform=(0.445149, 0, 0, 0.0211806, 0, 0.445149, 0, -0.235341, 0, 0,     0.445149, 0, 0, 0, 0, 1))odb = session.odbs['https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb']session.viewports['Viewport: 1'].setValues(displayedObject=odb)session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    CONTOURS_ON_DEF, ))session.viewports['Viewport: 1'].view.setValues(nearPlane=39.0214,     farPlane=61.9499, width=17.848, height=7.89489, viewOffsetX=2.93443,     viewOffsetY=-1.29661)odb = session.odbs['https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb']xyList = xyPlot.xyDataListFromField(odb=odb, outputPosition=NODAL, variable=((    'RF', NODAL, ((COMPONENT, 'RF1'), )), ('U', NODAL, ((COMPONENT, 'U1'), )),     ), nodePick=(('PART-1-1', 1, ('[#0:31 #8000000 ]', )), ), )xyp = session.xyPlots['XYPlot-1']chartName = xyp.charts.keys()[0]chart = xyp.charts[chartName]curveList = session.curveSet(xyData=xyList)chart.setValues(curvesToPlot=curveList)session.viewports['Viewport: 1'].setValues(displayedObject=xyp)odb = session.odbs['https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb']session.viewports['Viewport: 1'].setValues(displayedObject=odb)session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    CONTOURS_ON_DEF, ))xy1 = session.xyDataObjects['_U:U1 PI: PART-1-1 N: 1020']xy2 = combine(xy1, xy1)xyp = session.xyPlots['XYPlot-1']chartName = xyp.charts.keys()[0]chart = xyp.charts[chartName]c1 = session.Curve(xyData=xy2)chart.setValues(curvesToPlot=(c1, ), )session.viewports['Viewport: 1'].setValues(displayedObject=xyp)odb = session.odbs['https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb']session.viewports['Viewport: 1'].setValues(displayedObject=odb)session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    CONTOURS_ON_DEF, ))session.viewports['Viewport: 1'].view.setValues(nearPlane=41.3833,     farPlane=59.5879, width=1.24377, height=0.550167, viewOffsetX=-4.45183,     viewOffsetY=-1.37213)odb = session.odbs['https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb']xyList = xyPlot.xyDataListFromField(odb=odb, outputPosition=NODAL, variable=((    'RF', NODAL, ((COMPONENT, 'RF1'), )), ('U', NODAL, ((COMPONENT, 'U1'), )),     ), nodePick=(('PART-1-1', 1, ('[#2 ]', )), ), )xyp = session.xyPlots['XYPlot-1']chartName = xyp.charts.keys()[0]chart = xyp.charts[chartName]curveList = session.curveSet(xyData=xyList)chart.setValues(curvesToPlot=curveList)session.viewports['Viewport: 1'].setValues(displayedObject=xyp)odb = session.odbs['https://www.gofarlic.com/SIMULIA/Abaqus/Commands/Job-1.odb']session.viewports['Viewport: 1'].setValues(displayedObject=odb)session.viewports['Viewport: 1'].odbDisplay.display.setValues(plotState=(    CONTOURS_ON_DEF, ))xy1 = session.xyDataObjects['_U:U1 PI: PART-1-1 N: 2']xy2 = session.xyDataObjects['_RF:RF1 PI: PART-1-1 N: 2']xy3 = combine(xy1, xy2)xyp = session.xyPlots['XYPlot-1']chartName = xyp.charts.keys()[0]chart = xyp.charts[chartName]c1 = session.Curve(xyData=xy3)chart.setValues(curvesToPlot=(c1, ), )session.viewports['Viewport: 1'].setValues(displayedObject=xyp)session.xyPlots[session.viewports['Viewport: 1'].displayedObject.name].setValues(    transform=(0.633482, 0, 0, 0.0655835, 0, 0.633482, 0, 0.200666, 0, 0,     0.633482, 0, 0, 0, 0, 1))



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