Package | Description |
---|---|
nxopen.cae |
Provides classes and interfaces relating to Advanced Simulation and Design Simulation.
|
nxopen.cae.aerostructures.author |
Provides classes and interfaces relating to Aero Structures Author.
|
nxopen.cae.connections |
Provides classes and interfaces relating to Connections.
|
nxopen.cae.modelcheck |
Provides classes and interfaces relating to Model Check.
|
nxopen.cae.qualityaudit |
Provides classes and interfaces relating to Quality Audit.
|
nxopen.cae.responsesimulation |
Provides classes and interfaces for Response Simulation.
|
Modifier and Type | Field and Description |
---|---|
FENode[] |
ProjectNodesToCadGeometryBuilder.NodesData.nodes |
FENode |
ElementAssociatedDataUtils.AskBeamData.orientationnode
Orientation node.
|
FENode |
ElementAssociatedDataUtils.AskBushingData.orinode
Orientation node.
|
FENode |
ElementAssociatedDataUtils.AskGapData.orinode
Orientation node.
|
FENode[] |
ElemEdgePathMethod.PathEdgesData.pathstartnodes
resultant start vertices
|
FENode[] |
ProjectNodesToCadGeometryBuilder.ProximityNodesData.proximityNodes |
FENode[] |
ElemEdgePathMethod.SeedEdgesData.seedstartnodes
seed start vertices
|
FENode[] |
ElemEdgePathMethod.SeedsData.seedstartnodes
seed start vertices
|
FENode |
SelectFENode.ValueData.selection
selected object
|
FENode |
SelectFENode.ValueWithCaeSetObjectInfoData.selection
selected object
|
FENode |
SelectFENode.ValueWithSnapData.selection1
first selected object
|
FENode |
SelectFENode.ValueWithSnapData.selection2
second selected object
|
Modifier and Type | Method and Description |
---|---|
FENode |
NodeCreateBuilder.commitNode()
Commits the Builder, which creates the node as it was defined and returns the newly create node.
|
FENode[] |
MultipleNodeCreateBuilder.commitNodes()
Commits the Builder, which creates nodes as they were defined and returns the newly create nodes.
|
FENode[] |
SelectFENodeList.getArray()
Returns the list of objects in the selection list.
|
FENode[] |
NodesBetweenNodesBuilder.getCommittedNodes()
The last created nodes
License requirements: None. |
FENode[] |
FEElement.getCornerNodesOnEdge(int edgeIndex)
Returns the corner nodes for this element edge.
|
FENode[] |
FEElement.getCornerNodesOnFace(int faceIndex)
Returns the corner nodes for this element face
License requirements: None. |
FENode |
FEElement.getMidNodeOnEdge(int edgeIndex)
Returns the mid node for this element edge, if the element order
FEElement.order() is
ElementTypes.Order.MIXED or an order that does not support mid nodes,
then the node returned may be null. |
FENode[] |
FEElement.getMidNodesOnFace(int faceIndex)
Returns the mid nodes for this element face, if the element order
FEElement.order() is
ElementTypes.Order.MIXED , then some of the nodes returned may be null. |
FENode |
FENodeLabelMap.getNode(int nodelabel)
|
FENode[] |
RelatedNodeMethod.getNodes()
Returns the resultant nodes
License requirements: None. |
FENode[] |
OrderedFeatureEdgeNodeMethod.getNodes()
Returns the resultant nodes
License requirements: None. |
FENode[] |
OrderedEdgeNodeMethod.getNodes()
Returns the resultant nodes
License requirements: None. |
FENode[] |
NodeLabelMethod.getNodes()
Returns the resultant nodes
License requirements: None. |
FENode[] |
GroupNodeMethod.getNodes()
Returns the resultant nodes
License requirements: None. |
FENode[] |
FEElement.getNodes()
Returns the nodes for this element, if the element order
FEElement.order() is
mixed order, some of the mid nodes returned may be null. |
FENode[] |
FeatureNodeMethod.getNodes()
Returns the resultant nodes
License requirements: None. |
FENode[] |
FeatureEdgeNodeMethod.getNodes()
Returns the resultant nodes
License requirements: None. |
FENode[] |
CaeDOFSet.getNodes()
Get the nodes in the DOFSet
License requirements: nx_masterfem ("Finite Element Modeling") OR nx_design_sim ("NX Design Simulation") . |
FENode[] |
CaeDOFSet.getNodesWithDof(boolean dof1,
boolean dof2,
boolean dof3,
boolean dof4,
boolean dof5,
boolean dof6)
Get the nodes with the given dof value in the DOFSet
License requirements: nx_masterfem ("Finite Element Modeling") OR nx_design_sim ("NX Design Simulation") . |
FENode |
BeamSectionOrientationOptions.node()
Returns the node used to orient beam.
|
FENode |
BeamElementInfo.orientationNode()
Returns the orientation node.
|
FENode |
SelectFENode.value()
Returns the object being selected
License requirements: None. |
Modifier and Type | Method and Description |
---|---|
boolean |
SelectFENodeList.add(FENode object)
Adds an object to the list
License requirements: None. |
void |
OrderedSelection.add(FENode entity)
Adds a node to the list
License requirements: None. |
boolean |
SelectFENodeList.add(FENode[] objects)
Adds a set of objects to the list
License requirements: None. |
boolean |
SelectFENodeList.add(FENode selection,
View view,
Point3d point)
Adds the object with the objects view and objects point
License requirements: None. |
void |
MultipleElementCreateBuilder.addElement(FENode[] nodes)
Adds new element definition defined by the list of input
FENode
objects. |
void |
MultipleElementCreateBuilder.addElement(FENode[] nodes,
int label)
Adds new element definition defined by the list of input
FENode
objects. |
void |
CaeDOFSet.addNodes(FENode[] nodes,
boolean[] dof1,
boolean[] dof2,
boolean[] dof3,
boolean[] dof4,
boolean[] dof5,
boolean[] dof6)
Add nodes to the CaeDOFSet
A true for a dof logical entry would mean that the dof is included for that corresponding node.
|
void |
MorphRevolvedMeshBuilder.addOrModifyNodeMap(FENode node,
Point point)
Add or modify node to point mapping
License requirements: nx_masterfem ("Finite Element Modeling") . |
void |
ElemEdgePathMethod.addSeedEdge(FENode seedStartNode,
FEElemEdge seedElemEdge)
Deprecated.
Deprecated in NX10.0.0. Use overloaded
ElemEdgePathMethod.addSeedEdge(nxopen.cae.FENode, nxopen.cae.FEElemEdge) with additional arguments instead.
|
void |
ElemEdgePathMethod.addSeedEdge(FENode seedStartNode,
FEElemEdge seedElemEdge,
boolean preferFreeEdges,
boolean preferGeometryAssociatedEdges,
boolean preferFeatureElementEdge,
double featureAngleTolerance,
boolean allowGapJumping,
double gapJumpingTolerance)
Add seed (start vertex and edge) to the end of the path.
|
void |
ManualMorphBuilder.checkNodesForContinuity(FENode[] pNodeTags,
FENode[] pVertexNodeTags)
Checks continuity of nodes for uniform distribution along selected edges
License requirements: nx_masterfem ("Finite Element Modeling") . |
void |
ManualMorphBuilder.checkNodesForContinuity(FENode[] pNodeTags,
FENode[] pVertexNodeTags)
Checks continuity of nodes for uniform distribution along selected edges
License requirements: nx_masterfem ("Finite Element Modeling") . |
boolean |
ManualMorphBuilder.checkNodeToEdgeMapForPlanarAnalysis(TaggedObject[] pEdgeTags,
FENode[] pNodeTags)
Checks out of plane displacement of nodes for Node to Edge Mapping
License requirements: nx_masterfem ("Finite Element Modeling") . |
boolean |
ManualMorphBuilder.checkNodeToFaceMapForPlanarAnalysis(TaggedObject faceTag,
FENode[] pNodeTags)
Checks out of plane displacement of nodes for Node to Face Mapping
License requirements: nx_masterfem ("Finite Element Modeling") . |
boolean |
SelectFENodeList.contains(FENode object)
Returns whether the specified object is already in the list or not.
|
CaeDOFSet |
CaeDOFSetCollection.createDofset(String dofsetName,
FENode[] nodes,
boolean[] dof1,
boolean[] dof2,
boolean[] dof3,
boolean[] dof4,
boolean[] dof5,
boolean[] dof6)
Create a DOFSet
A true for a dof logical entry would mean that the dof is included for that corresponding node.
|
ElemEdgePathMethod |
SmartSelectionManager.createElemEdgePathMethod(FEElemEdge seedElemEdgeTag,
FENode seedStartNodeTag)
Deprecated.
Deprecated in NX10.0.0. Use overloaded
SmartSelectionManager.createElemEdgePathMethod(nxopen.cae.FEElemEdge, nxopen.cae.FENode) which takes as input an array of FEElemEdge objects and the argument doEntityVisibilityCheck.
|
ElemEdgePathMethod |
SmartSelectionManager.createElemEdgePathMethod(FEElemEdge seedElemEdgeTag,
FENode seedStartNodeTag,
boolean preferFreeEdges,
boolean preferGeometryAssociatedEdges,
boolean preferFeatureElementEdge,
double featureAngleTolerance,
boolean allowGapJumping,
double gapJumpingTolerance)
Creates an elem edge path method
License requirements: nx_masterfem ("Finite Element Modeling") . |
RelatedCurveMethod |
SmartSelectionManager.createRelatedCurveMethod(FENode[] seeds,
boolean doEntityVisibilityCheck)
Creates a related curve method
License requirements: nx_masterfem ("Finite Element Modeling") . |
RelatedEdgeMethod |
SmartSelectionManager.createRelatedEdgeMethod(FENode[] seeds,
boolean doEntityVisibilityCheck)
Creates a related edge method
License requirements: nx_masterfem ("Finite Element Modeling") . |
RelatedElemMethod |
SmartSelectionManager.createRelatedElemMethod(FENode seed)
Deprecated.
Deprecated in NX11.0.0. Use overloaded
SmartSelectionManager.createRelatedElemMethod(nxopen.cae.Mesh) which takes as input an array of FENode objects and the argument doEntityVisibilityCheck.
|
RelatedElemMethod |
SmartSelectionManager.createRelatedElemMethod(FENode[] seeds)
Deprecated.
Deprecated in NX11.0.0. Use overloaded
SmartSelectionManager.createRelatedElemMethod(nxopen.cae.Mesh) which takes as input an array of FENode objects and the argument doEntityVisibilityCheck.
|
RelatedElemMethod |
SmartSelectionManager.createRelatedElemMethod(FENode[] seeds,
boolean doEntityVisibilityCheck)
Creates a related elem method
License requirements: nx_masterfem ("Finite Element Modeling") . |
RelatedElemMethod |
SmartSelectionManager.createRelatedElemMethod(FENode seedTag,
boolean doEntityVisibilityCheck)
Creates a related elem method
License requirements: nx_masterfem ("Finite Element Modeling") . |
RelatedFaceMethod |
SmartSelectionManager.createRelatedFaceMethod(FENode seed)
Deprecated.
Deprecated in NX11.0.0. Use overloaded
SmartSelectionManager.createRelatedFaceMethod(nxopen.cae.Mesh) which takes as input an array of FENode objects and the argument doEntityVisibilityCheck.
|
RelatedFaceMethod |
SmartSelectionManager.createRelatedFaceMethod(FENode[] seeds)
Deprecated.
Deprecated in NX11.0.0. Use overloaded
SmartSelectionManager.createRelatedFaceMethod(nxopen.cae.Mesh) which takes as input an array of FENode objects and the argument doEntityVisibilityCheck.
|
RelatedFaceMethod |
SmartSelectionManager.createRelatedFaceMethod(FENode[] seeds,
boolean doEntityVisibilityCheck)
Creates a related face method
License requirements: nx_masterfem ("Finite Element Modeling") . |
RelatedFaceMethod |
SmartSelectionManager.createRelatedFaceMethod(FENode seed,
boolean doEntityVisibilityCheck)
Creates a related face method
License requirements: nx_masterfem ("Finite Element Modeling") . |
RelatedVertexMethod |
SmartSelectionManager.createRelatedVertexMethod(FENode[] seeds,
boolean doEntityVisibilityCheck)
Creates a related vertex method
License requirements: nx_masterfem ("Finite Element Modeling") . |
Point |
MorphRevolvedMeshBuilder.getNodeMappedPoint(FENode node)
Get point mapped to the given node
License requirements: None. |
void |
CaeDOFSet.modifyNodeDofs(FENode[] nodes,
boolean[] dof1,
boolean[] dof2,
boolean[] dof3,
boolean[] dof4,
boolean[] dof5,
boolean[] dof6)
Modify the dofs of the passed in nodes in the CaeDOFSet.
|
boolean |
SelectFENodeList.remove(FENode object)
Remove specified object from list.
|
boolean |
SelectFENodeList.remove(FENode object,
View view)
Remove specified object from list.
|
boolean |
SelectFENodeList.remove(InferSnapType.SnapType snapType,
FENode selection1,
View view1,
Point3d point1,
FENode selection2,
View view2,
Point3d point2)
Remove specified object from list.
|
boolean |
SelectFENodeList.removeArray(FENode[] objects)
Remove specified objects from list.
|
void |
MorphRevolvedMeshBuilder.removeNodeMap(FENode node)
Remove node from node to point mapping
License requirements: nx_masterfem ("Finite Element Modeling") . |
void |
CaeDOFSet.removeNodes(FENode[] nodes)
Remove nodes from the CaeDOFSet.
|
void |
MorphRevolvedMeshBuilder.replaceNodeMap(FENode oldNode,
FENode newNode,
Point newPoint)
Replace old node mapping with new node to point mapping
License requirements: nx_masterfem ("Finite Element Modeling") . |
void |
SelectFENodeList.setArray(FENode[] objects)
Sets the list of objects in the selection list.
|
void |
ElementAssociatedDataUtils.setBeamData(FEElement element,
PhysicalPropertyTable physicalPropertyTable,
CaeElementAssociatedDataUtilsOrientationMethod oriMethod,
CaeElementAssociatedDataUtilsVectorChoiceType vectorType,
Direction direction,
FENode orientationNode,
CaeElementAssociatedDataUtilsEndReleaseState endReleaseA,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndADOF1,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndADOF2,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndADOF3,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndADOF4,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndADOF5,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndADOF6,
CaeElementAssociatedDataUtilsEndReleaseState endReleaseB,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndBDOF1,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndBDOF2,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndBDOF3,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndBDOF4,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndBDOF5,
CaeElementAssociatedDataUtilsEndReleaseSetting pinFlagEndBDOF6,
double xOffsetEndA,
double yOffsetEndA,
double zOffsetEndA,
double xOffsetEndB,
double yOffsetEndB,
double zOffsetEndB)
Sets beam element associated data.
|
void |
ElementAssociatedDataUtils.setBushingData(FEElement element,
PhysicalPropertyTable physicalPropertyTable,
CaeElementAssociatedDataUtilsOrientationMethod oriMethod,
Direction oriDirr,
CoordinateSystem coordinateSystem,
FENode oriNode,
CaeElementAssociatedDataUtilsCsysDataType csysDataType,
Point3d originPoint,
Point3d zAxisPoint,
Point3d planePoint,
int preferredLabel)
Sets bushing element associated data.
|
void |
PreTestDofSet.setDofs(FENode[] nodes,
boolean[] dofs)
Setting the dofs manually
License requirements: nx_correl_base ("FE Correlation") . |
void |
ElementAssociatedDataUtils.setGapData(FEElement element,
PhysicalPropertyTable physicalPropertyTable,
CaeElementAssociatedDataUtilsOrientationMethod oriMethod,
Direction oriDirr,
CoordinateSystem coordinateSystem,
FENode oriNode)
Sets gap element associated data.
|
void |
SimBcXyPlotBuilder.setLocationNode(FENode node)
Sets location at a node
License requirements: nx_masterfem ("Finite Element Modeling") . |
void |
BeamSectionOrientationOptions.setNode(FENode node)
License requirements: nx_masterfem ("Finite Element Modeling") OR nx_design_sim ("NX Design Simulation") . |
void |
NodesRepositionBuilder.setNodePosition(FENode fenode,
Point3d position)
Set the new absolute postion for the input node.
|
void |
NodesRepositionBuilder.setNodePositions(FENode[] fenodes,
Point3d[] positions)
Set the new absolute postions for an array of input nodes.
|
void |
ResultMeasureModelSubsetFE.setNodes(FENode[] elements)
Set the nodes
License requirements: nx_masterfem ("Finite Element Modeling") OR nx_design_sim ("NX Design Simulation") . |
void |
ManualMorphBuilder.setNodeSelection(TaggedObject mapDataTag,
FENode[] pNodeTags)
Sets the node selected for manual map
License requirements: nx_masterfem ("Finite Element Modeling") . |
void |
ManualMorphBuilder.setNodeToCurveEndPointMap(TaggedObject mapDataTag,
FENode[] pVertexNodeTags)
Sets the node-to-CurveEndPoint map for node-to-edge mapping type
License requirements: nx_masterfem ("Finite Element Modeling") . |
void |
ManualMorphBuilder.setNodeToVertexMap(TaggedObject mapDataTag,
FENode[] pVertexNodeTags)
Sets the node-to-vetex map for node-to-edge mapping type
License requirements: nx_masterfem ("Finite Element Modeling") . |
void |
SetManager.setTargetSetElemEdgePath(int setIndex,
FEElemEdge[] seedEdges,
FENode[] seedVertices)
Deprecated.
Deprecated in NX10.0.0. Use overloaded
SetManager.setTargetSetElemEdgePath(int, nxopen.cae.FEElemEdge[], nxopen.cae.FENode[]) with additional arguments instead.
|
void |
SetManager.setTargetSetElemEdgePath(int setIndex,
FEElemEdge[] seedEdges,
FENode[] seedVertices,
boolean[] preferFreeEdges,
boolean[] preferGeometryAssociatedEdges,
boolean[] preferFeatureElementEdges,
double[] featureAngleTolerance,
boolean[] allowGapJumping,
double[] gapJumpingTolerance)
Sets the CAE element edge path in the specified set
License requirements: nx_masterfem ("Finite Element Modeling") OR nx_design_sim ("NX Design Simulation") . |
void |
SelectFENode.setValue(FENode selection)
Sets the object being selected
License requirements: None. |
void |
SelectFENode.setValue(FENode selection,
View view,
Point3d point)
The object being selected with the object's view and object's point
License requirements: None. |
boolean |
SelectFENodeList.setValueWithCaeSetObjectInfo(FENode selection,
CaeObjectType.CaeSubType caeSubType,
int caeSubId)
Deprecated.
Deprecated in NX10.0.0. Use other versions of
SelectObjectList.add(nxopen.TaggedObject) .
|
void |
SelectFENode.setValueWithCaeSetObjectInfo(FENode selection,
CaeObjectType.CaeSubType caeSubType,
int caeSubId)
Deprecated.
Deprecated in NX10.0.0. Use other versions of
SelectObject.setValue(nxopen.TaggedObject) .
|
boolean |
SelectFENodeList.setValueWithSnap(InferSnapType.SnapType snapType,
FENode selection1,
View view1,
Point3d point1,
FENode selection2,
View view2,
Point3d point2)
The object being selected with the objects view and objects point and snap information.
|
void |
SelectFENode.setValueWithSnap(InferSnapType.SnapType snapType,
FENode selection1,
View view1,
Point3d point1,
FENode selection2,
View view2,
Point3d point2)
The object being selected with the objects view and objects point and snap information.
|
Modifier and Type | Method and Description |
---|---|
FENode[] |
InputLoad.getNodes()
Get support nodes
License requirements: nx_masterfem ("Finite Element Modeling") . |
Modifier and Type | Method and Description |
---|---|
FENode[] |
NodeSeriesLocation.getNodes()
Retrieve location nodes.
|
FENode |
NodeLocation.node()
Returns the FEM node used for creating the location.
|
Modifier and Type | Method and Description |
---|---|
NodeLocation |
ILocationsSinglePointContainer.addLocationNode(int indexOfDefinition,
FENode node)
Adds a node location to connection location list
License requirements: nx_masterfem ("Finite Element Modeling") . |
NodeSeriesLocation |
ILocationsWithDiscretizationContainer.addLocationSeriesOfNodes(int indexOfDefinition,
FENode[] nodes)
Adds a series of nodes location to connection location list
License requirements: nx_masterfem ("Finite Element Modeling") . |
void |
NodeSeriesLocation.addNodes(FENode[] nodes)
Add location nodes.
|
void |
NodeLocation.setNode(FENode node)
License requirements: nx_masterfem ("Finite Element Modeling") . |
void |
NodeSeriesLocation.setNodes(FENode[] nodes)
Set location nodes.
|
Modifier and Type | Method and Description |
---|---|
FENode[] |
DuplicateNodesCheckBuilder.getDuplicateNodes(int groupIndex)
Returns the duplicate nodes of specified group index
License requirements: nx_masterfem ("Finite Element Modeling") OR nx_design_sim ("NX Design Simulation") . |
Modifier and Type | Method and Description |
---|---|
FENode[] |
MergedNodesResult.getNodes()
Returns the merged nodes.
|
Modifier and Type | Method and Description |
---|---|
FENode[] |
ResponseResultsEvaluationSettingBuilder.getDestinationNodes()
Returns the destination nodes
License requirements: nx_response_anlys ("NX Response Analysis") . |
FENode[] |
NodalFunctionEvaluationSettingBuilder.getDestinationNodes()
Returns the destination nodes
License requirements: nx_response_anlys ("NX Response Analysis") . |
FENode[] |
PrlResultsEvaluationSettingBuilder.getOutputNodes()
Returns the destination nodes.
|
FENode[] |
ModalResultsEvaluationSettingBuilder.getOutputNodes()
Returns destination nodes.
|
FENode[] |
CsdEvaluationSettingBuilder.getResponseNodes()
Get the response nodes.
|
FENode[] |
SensorBuilder.getSelectedNodes()
Returns the destination nodes
License requirements: nx_response_anlys ("NX Response Analysis") . |
FENode |
ModalResultsEvaluationSettingBuilder.inputNode()
Returns the source node.
|
FENode |
PrlResultsEvaluationSettingBuilder.observationNode()
Returns the relative node.Only available when result type is
EvaluationResultType.DISPLACEMENT ,
EvaluationResultType.ACCELERATION ,
EvaluationResultType.ELEMENT_FORCE
License requirements: nx_response_anlys ("NX Response Analysis") Created in NX5.0.0 |
FENode |
ModalResultsEvaluationSettingBuilder.observationNode()
Returns the observation nodes.
|
FENode |
CsdEvaluationSettingBuilder.referenceNode()
Returns the reference node.
|
FENode |
NodalFunctionEvaluationSettingBuilder.relativeNode()
Returns the relative node
License requirements: nx_response_anlys ("NX Response Analysis") . |
Modifier and Type | Method and Description |
---|---|
void |
ResponseResultsEvaluationSettingBuilder.setDestinationNodes(FENode[] destinationNodes)
Sets the destination nodes
License requirements: nx_response_anlys ("NX Response Analysis") . |
void |
NodalFunctionEvaluationSettingBuilder.setDestinationNodes(FENode[] destinationNodes)
Sets the destination nodes
License requirements: nx_response_anlys ("NX Response Analysis") . |
void |
ModalResultsEvaluationSettingBuilder.setInputNode(FENode sourceNode)
License requirements: nx_response_anlys ("NX Response Analysis") . |
void |
PrlResultsEvaluationSettingBuilder.setObservationNode(FENode relativeNode)
License requirements: nx_response_anlys ("NX Response Analysis") . |
void |
ModalResultsEvaluationSettingBuilder.setObservationNode(FENode observationNode)
License requirements: nx_response_anlys ("NX Response Analysis") . |
void |
PrlResultsEvaluationSettingBuilder.setOutputNodes(FENode[] destinationNodes)
Sets the destination nodes
License requirements: nx_response_anlys ("NX Response Analysis") . |
void |
ModalResultsEvaluationSettingBuilder.setOutputNodes(FENode[] destinationNode)
Sets destination nodes
License requirements: nx_response_anlys ("NX Response Analysis") . |
void |
CsdEvaluationSettingBuilder.setReferenceNode(FENode referenceNode)
License requirements: nx_response_anlys ("NX Response Analysis") . |
void |
NodalFunctionEvaluationSettingBuilder.setRelativeNode(FENode relativeNode)
License requirements: nx_response_anlys ("NX Response Analysis") . |
void |
CsdEvaluationSettingBuilder.setResponseNodes(FENode[] responseNode)
Set the response nodes.
|
void |
SensorBuilder.setSelectedNodes(FENode[] destinationNodes)
Sets the destination nodes
License requirements: nx_response_anlys ("NX Response Analysis") . |
Copyright 2017 Siemens Product Lifecycle Management Software Inc. All Rights Reserved.