Code:
from abaqus import *
from abaqusConstants import *
import regionToolsetMdb()
session.viewports['Viewport: 1'].setValues(displayedObject=None)
#---------------------------------------------------------------
# Create the model
mdb.models.changeKey(fromName='Model-1', toName='SLJ_Composites_3D')
sljModel = mdb.models['SLJ_Composites_3D']
# Create the parts
import sketch
import part
# a)Adherend1
adherend1Part = sljModel.Part(name='Adherend1', dimensionality=THREE_D,
type=DEFORMABLE_BODY)
#Datum Plane die x-z Ebene entspricht
datumPart1_xzPlane = adherend1Part.DatumPlaneByPrincipalPlane(
offset=0.0, principalPlane=XZPLANE)
#Datum Axis die der z-Achse entspricht
datumPart1_zAxis = adherend1Part.DatumAxisByPrincipalAxis(
principalAxis=ZAXIS)
#Sketch transform um auf die x-z Ebene sketchen zu können
transform1 = mdb.models['SLJ_Composites_3D'].parts['Adherend1'].MakeSketchTransform(
sketchPlane=mdb.models['SLJ_Composites_3D'].parts['Adherend1'].datums[1])
#mdb.models['SLJ_Composites_3D'].ConstrainedSketch(gridSpacing=16.27, name=
# '__profile__', sheetSize=651.15, transform=
# mdb.models['SLJ_Composites_3D'].parts['Adherend1'].MakeSketchTransform(
# sketchPlane=mdb.models['SLJ_Composites_3D'].parts['Adherend1'].datums[1],
# sketchPlaneSide=SIDE2,
# sketchUpEdge=mdb.models['SLJ_Composites_3D'].parts['Adherend1'].datums[2],
# sketchOrientation=RIGHT, origin=(0.0, 0.0, 0.0)))