34.8 FieldValue object

The FieldValue object represents the field data at a point. The FieldValue object has no constructor; it is created by the Odb object when data are added to the FieldOutput object using the addData method. For faster, bulk-data access, see Using bulk data access to an output database, Section 10.10.7 of the Abaqus Scripting User's Guide.

Access
import odbAccess
session.odbs[name].steps[name].frames[i].fieldOutputs[name].values[i]


34.8.1  Members

The FieldValue object has the following members:

position

A SymbolicConstant specifying the position of the output in the element. Possible values are:

  • NODAL, specifying the values calculated at the nodes.

  • INTEGRATION_POINT, specifying the values calculated at the integration points.

  • ELEMENT_NODAL, specifying the values obtained by extrapolating results calculated at the integration points.

  • ELEMENT_FACE, specifying the results obtained for surface variables such as cavity radiation that are defined for the surface facets of an element.

  • CENTROID, specifying the value at the centroid obtained by extrapolating results calculated at the integration points.

precision

A SymbolicConstant specifying the precision of the output in the element. Possible values are:

  • SINGLE_PRECISION, specifying that the output values are in single precision.

  • DOUBLE_PRECISION, specifying that the output values are in double precision.

elementLabel

An Int specifying the element label of the element containing the location. elementLabel is available only if position=INTEGRATION_POINT, CENTROID, ELEMENT_NODAL, or ELEMENT_FACE.

nodeLabel

An Int specifying the node label of the node containing the location. nodelabel is available only if position=ELEMENT_NODAL or NODAL.

integrationPoint

An Int specifying the integration point in the element. integrationPoint is available only if position=INTEGRATION_POINT.

face

A SymbolicConstant specifying the face of the element. face is available only if position=ELEMENT_FACE.

type

A SymbolicConstant specifying the output type. Possible values are SCALAR, VECTOR, TENSOR_3D_FULL, TENSOR_3D_PLANAR, TENSOR_3D_SURFACE, TENSOR_2D_PLANAR, and TENSOR_2D_SURFACE.

magnitude

A Float specifying the length or magnitude of the vector. magnitude is valid only when type=VECTOR.

mises

A Float specifying the calculated von Mises stress. The value is valid only when the validInvariants member includes MISES; otherwise, the value is indeterminate. Conjugate data will be ignored in invariant calculation.

tresca

A Float specifying the calculated Tresca stress. The value is valid only when the validInvariants member includes TRESCA; otherwise, the value is indeterminate. Conjugate data will be ignored in invariant calculation.

press

A Float specifying the calculated pressure stress. The value is valid only when the validInvariants member includes PRESS; otherwise, the value is indeterminate. Conjugate data will be ignored in invariant calculation.

inv3

A Float specifying the calculated third stress invariant. The value is valid only when the validInvariants member includes INV3; otherwise, the value is indeterminate. Conjugate data will be ignored in invariant calculation.

maxPrincipal

A Float specifying the calculated maximum principal stress. The value is valid only when the validInvariants member includes MAX_PRINCIPAL; otherwise, the value is indeterminate. Conjugate data will be ignored in invariant calculation.

midPrincipal

A Float specifying the calculated intermediate principal stress. The value is valid only when the validInvariants member includes MID_PRINCIPAL; otherwise, the value is indeterminate. Conjugate data will be ignored in invariant calculation.

minPrincipal

A Float specifying the minimum principal stress. The value is valid only when the validInvariants member includes MIN_PRINCIPAL; otherwise, the value is indeterminate. Conjugate data will be ignored in invariant calculation.

maxInPlanePrincipal

A Float specifying the maximum principal in-plane stress. The value is valid only when the validInvariants member includes MAX_INPLANE_PRINCIPAL; otherwise, the value is indeterminate. Conjugate data will be ignored in invariant calculation.

minInPlanePrincipal

A Float specifying the calculated minimum principal in-plane stress. The value is valid only when the validInvariants member includes MIN_INPLANE_PRINCIPAL; otherwise, the value is indeterminate. Conjugate data will be ignored in invariant calculation.

outOfPlanePrincipal

A Float specifying the calculated principal out-of-plane stress. The value is valid only when the validInvariants member includes OUTOFPLANE_PRINCIPAL; otherwise, the value is indeterminate. Conjugate data will be ignored in invariant calculation.

instance

An OdbInstance object specifying the part to which the labels belong.

sectionPoint

A SectionPoint object.

localCoordSystem

A tuple of tuples of Floats specifying the 3 x 3 matrix of Floats specifying the direction cosines of the local coordinate system. Each sequence represents a row in the direction cosine matrix. localCoordSystem is available only for TENSOR data written in a local coordinate system. If the underlying data are in double precision, an exception will be thrown.

localCoordSystemDouble

A tuple of tuples of Floats specifying the 3 x 3 matrix of Doubles specifying the direction cosines of the local coordinate system. Each sequence represents a row in the direction cosine matrix. localCoordSystemDouble is available only for TENSOR data written in a local coordinate system. If the underlying data are in single precision, an exception will be thrown.

data

A tuple of Floats specifying data in the form described by type. If type=TENSOR or VECTOR, data is a sequence containing the components. If the underlying data are in double precision an exception will be thrown.

dataDouble

A tuple of Floats specifying data in the form described by type. If type=TENSOR or VECTOR, data is a sequence containing the components. If the underlying data are in single precision, an exception will be thrown.

conjugateData

A tuple of Floats specifying data in the form described by type. If type=TENSOR or VECTOR, conjugateData is a sequence containing the components. If the underlying data are in double precision, an exception will be thrown.

conjugateDataDouble

A tuple of Floats specifying data in the form described by type. If type=TENSOR or VECTOR, conjugateData is a sequence containing the components. If the underlying data are in single precision, an exception will be thrown.