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abaqusdev_0508.py
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abaqusdev_0508.py
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# -*- coding: mbcs -*-
#
# Abaqus/CAE Release 6.14-1 replay file
# Internal Version: 2014_06_05-06.11.02 134264
# Run by haomjc on Wed May 08 09:54:43 2019
#
# from driverUtils import executeOnCaeGraphicsStartup
# executeOnCaeGraphicsStartup()
#: Executing "onCaeGraphicsStartup()" in the site directory ...
#: the Abaqus Site Guide for up-to-date examples of common tasks in the
#: environment file.
from abaqus import *
from abaqusConstants import *
session.viewports['Viewport: 1'].makeCurrent()
session.viewports['Viewport: 1'].maximize()
from caeModules import *
from driverUtils import executeOnCaeStartup
def stiffness(fileName, ModelName, Youngs_Modulus, Poissions_Ratio, Step_Initial, Step_Minimum, Moment, Shell_Mesh_Size, Cycloid_Mesh_Size, numCpus, numGpus , SaveAs):
executeOnCaeStartup()
session.viewports['Viewport: 1'].partDisplay.geometryOptions.setValues(
referenceRepresentation=ON)
Mdb()
#: 新的模型数据库已创建.
#: 模型 "Model-1" 已创建.
session.viewports['Viewport: 1'].setValues(displayedObject=None)
import sys
sys.path.insert(9,
r'd:/SIMULIA/Abaqus/6.14-1/code/python2.7/lib/abaqus_plugins/rsg')
sys.path.append('C:\\Users\\haomjc\\abaqus_plugins\\_rsgTmpDir')
mdb.saveAs(pathName='F:/Temp/'+fileName)
#: 模型数据库已保存到 "F:\Temp\Cyc_loid.cae".
step = mdb.openStep(ModelName, scaleFromFile=OFF)
mdb.models['Model-1'].PartFromGeometryFile(name='cycloid-1', geometryFile=step,
combine=False, dimensionality=THREE_D, type=DEFORMABLE_BODY)
mdb.models['Model-1'].PartFromGeometryFile(name='cycloid-2', geometryFile=step,
bodyNum=2, combine=False, dimensionality=THREE_D, type=DEFORMABLE_BODY)
p = mdb.models['Model-1'].parts['cycloid-2']
session.viewports['Viewport: 1'].setValues(displayedObject=p)
p = mdb.models['Model-1'].parts['cycloid-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'].Material(name='Material-1')
mdb.models['Model-1'].materials['Material-1'].Elastic(table=((Youngs_Modulus, Poissions_Ratio),
))
mdb.models['Model-1'].HomogeneousSolidSection(name='Section-1',
material='Material-1', thickness=None)
p = mdb.models['Model-1'].parts['cycloid-1']
c = p.cells
cells = c.getSequenceFromMask(mask=('[#1 ]', ), )
region = p.Set(cells=cells, name='Set-1')
p = mdb.models['Model-1'].parts['cycloid-1']
p.SectionAssignment(region=region, sectionName='Section-1', offset=0.0,
offsetType=MIDDLE_SURFACE, offsetField='',
thicknessAssignment=FROM_SECTION)
p = mdb.models['Model-1'].parts['cycloid-2']
session.viewports['Viewport: 1'].setValues(displayedObject=p)
p = mdb.models['Model-1'].parts['cycloid-2']
c = p.cells
cells = c.getSequenceFromMask(mask=('[#1 ]', ), )
region = p.Set(cells=cells, name='Set-1')
p = mdb.models['Model-1'].parts['cycloid-2']
p.SectionAssignment(region=region, sectionName='Section-1', offset=0.0,
offsetType=MIDDLE_SURFACE, offsetField='',
thicknessAssignment=FROM_SECTION)
a = mdb.models['Model-1'].rootAssembly
session.viewports['Viewport: 1'].setValues(displayedObject=a)
session.viewports['Viewport: 1'].assemblyDisplay.setValues(
optimizationTasks=OFF, geometricRestrictions=OFF, stopConditions=OFF)
a = mdb.models['Model-1'].rootAssembly
a.DatumCsysByDefault(CARTESIAN)
p = mdb.models['Model-1'].parts['cycloid-1']
a.Instance(name='cycloid-1-1', part=p, dependent=OFF)
p = mdb.models['Model-1'].parts['cycloid-2']
a.Instance(name='cycloid-2-1', part=p, dependent=OFF)
session.viewports['Viewport: 1'].assemblyDisplay.setValues(
adaptiveMeshConstraints=ON)
mdb.models['Model-1'].StaticStep(name='Step-1', previous='Initial', nlgeom=ON)
session.viewports['Viewport: 1'].assemblyDisplay.setValues(step='Step-1')
mdb.models['Model-1'].steps['Step-1'].setValues(initialInc=Step_Initial, minInc=Step_Minimum)
session.viewports['Viewport: 1'].assemblyDisplay.setValues(interactions=ON,
constraints=ON, connectors=ON, engineeringFeatures=ON,
adaptiveMeshConstraints=OFF)
mdb.models['Model-1'].ContactProperty('IntProp-1')
mdb.models['Model-1'].interactionProperties['IntProp-1'].TangentialBehavior(
formulation=PENALTY, directionality=ISOTROPIC, slipRateDependency=OFF,
pressureDependency=OFF, temperatureDependency=OFF, dependencies=0, table=((
0.1, ), ), shearStressLimit=None, maximumElasticSlip=FRACTION,
fraction=0.005, elasticSlipStiffness=None)
mdb.models['Model-1'].interactionProperties['IntProp-1'].NormalBehavior(
pressureOverclosure=HARD, allowSeparation=ON,
constraintEnforcementMethod=DEFAULT)
#: 相互作用属性 "IntProp-1" 已创建.
session.viewports['Viewport: 1'].assemblyDisplay.setValues(step='Initial')
mdb.models['Model-1'].ContactStd(name='Int-1', createStepName='Initial')
mdb.models['Model-1'].interactions['Int-1'].includedPairs.setValuesInStep(
stepName='Initial', useAllstar=ON)
mdb.models['Model-1'].interactions['Int-1'].contactPropertyAssignments.appendInStep(
stepName='Initial', assignments=((GLOBAL, SELF, 'IntProp-1'), ))
#: 相互作用 "Int-1" 已创建.
a = mdb.models['Model-1'].rootAssembly
e1 = a.instances['cycloid-1-1'].edges
a.ReferencePoint(point=a.instances['cycloid-1-1'].InterestingPoint(
edge=e1[338], rule=CENTER))
a = mdb.models['Model-1'].rootAssembly
r1 = a.referencePoints
refPoints1=(r1[6], )
region1=a.Set(referencePoints=refPoints1, name='m_Set-1')
a = mdb.models['Model-1'].rootAssembly
s1 = a.instances['cycloid-2-1'].faces
side1Faces1 = s1.getSequenceFromMask(mask=('[#3 ]', ), )
region2=a.Surface(side1Faces=side1Faces1, name='s_Surf-1')
mdb.models['Model-1'].Coupling(name='Constraint-1', controlPoint=region1,
surface=region2, influenceRadius=WHOLE_SURFACE, couplingType=KINEMATIC,
localCsys=None, u1=ON, u2=ON, u3=ON, ur1=ON, ur2=ON, ur3=ON)
session.viewports['Viewport: 1'].assemblyDisplay.setValues(loads=ON, bcs=ON,
predefinedFields=ON, interactions=OFF, constraints=OFF,
engineeringFeatures=OFF)
a = mdb.models['Model-1'].rootAssembly
f1 = a.instances['cycloid-1-1'].faces
faces1 = f1.getSequenceFromMask(mask=('[#0 #3000000 ]', ), )
region = a.Set(faces=faces1, name='Set-2')
mdb.models['Model-1'].EncastreBC(name='BC-1', createStepName='Initial',
region=region, localCsys=None)
session.viewports['Viewport: 1'].assemblyDisplay.setValues(step='Step-1')
a = mdb.models['Model-1'].rootAssembly
r1 = a.referencePoints
refPoints1=(r1[6], )
region = a.Set(referencePoints=refPoints1, name='Set-3')
mdb.models['Model-1'].Moment(name='Load-1', createStepName='Step-1',
region=region, cm1=Moment, distributionType=UNIFORM, field='',
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)
a = mdb.models['Model-1'].rootAssembly
partInstances =(a.instances['cycloid-2-1'], )
a.seedPartInstance(regions=partInstances, size=Cycloid_Mesh_Size, deviationFactor=0.1,
minSizeFactor=0.1)
a = mdb.models['Model-1'].rootAssembly
partInstances =(a.instances['cycloid-1-1'], )
a.seedPartInstance(regions=partInstances, size=Shell_Mesh_Size, deviationFactor=0.1,
minSizeFactor=0.1)
a = mdb.models['Model-1'].rootAssembly
c1 = a.instances['cycloid-1-1'].cells
pickedRegions = c1.getSequenceFromMask(mask=('[#1 ]', ), )
a.setMeshControls(regions=pickedRegions, elemShape=TET, technique=FREE)
elemType1 = mesh.ElemType(elemCode=C3D20R)
elemType2 = mesh.ElemType(elemCode=C3D15)
elemType3 = mesh.ElemType(elemCode=C3D10)
a = mdb.models['Model-1'].rootAssembly
c1 = a.instances['cycloid-1-1'].cells
cells = c1.getSequenceFromMask(mask=('[#1 ]', ), )
pickedRegions =(cells, )
a.setElementType(regions=pickedRegions, elemTypes=(elemType1, elemType2,
elemType3))
a = mdb.models['Model-1'].rootAssembly
c1 = a.instances['cycloid-2-1'].cells
pickedRegions = c1.getSequenceFromMask(mask=('[#1 ]', ), )
a.setMeshControls(regions=pickedRegions, elemShape=TET, technique=FREE)
elemType1 = mesh.ElemType(elemCode=C3D20R)
elemType2 = mesh.ElemType(elemCode=C3D15)
elemType3 = mesh.ElemType(elemCode=C3D10)
a = mdb.models['Model-1'].rootAssembly
c1 = a.instances['cycloid-2-1'].cells
cells = c1.getSequenceFromMask(mask=('[#1 ]', ), )
pickedRegions =(cells, )
a.setElementType(regions=pickedRegions, elemTypes=(elemType1, elemType2,
elemType3))
a = mdb.models['Model-1'].rootAssembly
partInstances =(a.instances['cycloid-2-1'], )
a.generateMesh(regions=partInstances)
a = mdb.models['Model-1'].rootAssembly
partInstances =(a.instances['cycloid-1-1'], )
a.generateMesh(regions=partInstances)
session.viewports['Viewport: 1'].assemblyDisplay.setValues(mesh=OFF,
optimizationTasks=ON, geometricRestrictions=ON, stopConditions=ON)
session.viewports['Viewport: 1'].assemblyDisplay.meshOptions.setValues(
meshTechnique=OFF)
session.viewports['Viewport: 1'].assemblyDisplay.setValues(
optimizationTasks=OFF, geometricRestrictions=OFF, stopConditions=OFF)
mdb.Job(name=SaveAs, 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=numCpus,
numDomains=4, numGPUs=numGpus)
mdb.jobs[SaveAs].writeInput(consistencyChecking=OFF)
#: 作业输入文件已写入到 "Job-cycloid.inp".
mdb.save()
#: 模型数据库已保存到 "F:\Temp\Cyc_loid.cae".