参数识别:模型脚本

为参数识别建立压缩模型的脚本

The optimize script of this example can be found here.

# run with: python compression.py 1000,0.2

import numpy as np

from abaqus import *
from abaqusConstants import *
from caeModules import *
from driverUtils import *


def run(modulus, poisson=0.2):
    executeOnCaeStartup()

    # Model
    model = mdb.models["Model-1"]

    # Part
    sketch = model.ConstrainedSketch(name="sketch", sheetSize=1.0)
    sketch.rectangle((0, 0), (1, 1))
    part = model.Part(name="part", dimensionality=THREE_D, type=DEFORMABLE_BODY)
    part.BaseSolidExtrude(sketch=sketch, depth=1)

    # Create sets
    part.Set(name="set-all", cells=part.cells.findAt(coordinates=((0.5, 0.5, 0.5),)))
    part.Set(name="set-bottom", faces=part.faces.findAt(coordinates=((0.5, 0.5, 0.0),)))
    part.Set(name="set-top", faces=part.faces.findAt(coordinates=((0.5, 0.5, 1.0),)))
    part.Surface(name="surface-top", side1Faces=part.faces.findAt(coordinates=((0.5, 0.5, 1.0),)))

    # Assembly
    model.rootAssembly.DatumCsysByDefault(CARTESIAN)
    model.rootAssembly.Instance(name="instance", part=part, dependent=ON)

    # Material
    material = model.Material(name="material")
    material.Elastic(table=((modulus, poisson),))
    material.Density(table=((2500,),))

    # Section
    model.HomogeneousSolidSection(name="section", material="material", thickness=None)
    part.SectionAssignment(region=part.sets["set-all"], sectionName="section")

    # Step
    step = model.StaticStep(
        name="Step-1",
        previous="Initial",
        description="",
        timePeriod=1.0,
        timeIncrementationMethod=AUTOMATIC,
        maxNumInc=100,
        initialInc=0.01,
        minInc=0.001,
        maxInc=0.1,
    )

    # Output request
    field = model.FieldOutputRequest("F-Output-1", createStepName="Step-1", variables=("S", "E", "U"))

    # Boundary condition
    bottom_instance = model.rootAssembly.instances["instance"].sets["set-bottom"]
    bc = model.DisplacementBC(
        name="BC-1", createStepName="Initial", region=bottom_instance, u1=SET, u2=SET, u3=SET, ur1=SET, ur2=SET, ur3=SET
    )

    # Load
    top_instance = model.rootAssembly.instances["instance"].surfaces["surface-top"]
    pressure = model.Pressure("pressure", createStepName="Step-1", region=top_instance, magnitude=100)

    # Mesh
    elem1 = mesh.ElemType(elemCode=C3D8R)
    elem2 = mesh.ElemType(elemCode=C3D6)
    elem3 = mesh.ElemType(elemCode=C3D4)
    part.setElementType(regions=(part.cells,), elemTypes=(elem1, elem2, elem3))
    part.seedPart(size=0.1)
    part.generateMesh()

    # Job
    job = mdb.Job(name="Job-1", model="Model-1")
    job.writeInput()

    # Submit the job
    job.submit()
    job.waitForCompletion()

    mdb.saveAs("compression.cae")

    # Open output database
    odb = session.openOdb("Job-1.odb")

    # Show the output database in viewport
    session.viewports["Viewport: 1"].setValues(displayedObject=odb)

    # Extract output data
    dataList = session.xyDataListFromField(
        odb=odb, outputPosition=NODAL, variable=(("U", NODAL, ((COMPONENT, "U3"),)),), nodeSets=("INSTANCE.SET-TOP",)
    )

    data = np.array(dataList[0])
    np.savetxt("data.csv", data, header="time,U3", delimiter=",", comments="")


if __name__ == "__main__":
    E, mu = sys.argv[-1].split(",")
    run(float(E), float(mu))

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