Physical properties and element attributes > Supported elements and properties
Multiphysics elements
The table lists the Multiphysics elements that are supported in Pre/Post. It also lists the physical property tables that can be defined for each element type.
0D elements
| Element name | Corresponding Simcenter Nastran element name | Supported analysis types | Description | Pre/Post command | Physical property table names | Additional information |
|---|---|---|---|---|---|---|
| Concentrated Mass | CONM2 | StructuralThermalCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-FlowCoupled Thermal-Flow-Structural | Concentrated mass element | 0D Mesh | Concentrated Mass | Enter element attributes in the Mesh Associated Data dialog box or Element Associated Data dialog box. For the thermal solver, specify the thermo-optical properties for radiation in the physical property table. |
| Spring Type 1 | CELAS1 | StructuralCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-Flow-Structural | Scalar spring connection element that behaves as a simple extension/compression or rotational spring. You can define a constant or nonlinear stiffness value. | 0D Mesh 1D Mesh or 1D Connection | Spring (PELAS for linear stiffness values and PELAST for nonlinear stiffness values) | – |
| Spring Type 2 | CELAS2 | StructuralCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-Flow-Structural | Scalar spring connection element that behaves as a simple extension/compression or rotational spring. You can only define a constant thickness value. | – | All properties are defined as Mesh Associated Data | |
| Bushing | CBUSH | StructuralCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-Flow-Structural | Axial spring element that accounts for the distance between the connecting grid points when transferring loads. You can specify constant or nonlinear stiffness values in all six degrees-of-freedom. | Bushing (PBUSH for constant stiffness and PBUSHT for nonlinear stiffness values) | – | |
| Unidirectional Bushing | CBUSH1D | StructuralCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-Flow-Structural | Axial spring element that supports large displacements. | Unidirectional Bushing (PBUSH1D) | – |
1D elements
| Element name | Corresponding Simcenter Nastran element name | Supported analysis types | Description | Pre/Post command | Physical property table names | Additional information |
|---|---|---|---|---|---|---|
| Bar | CBAR | StructuralThermalCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-FlowCoupled Thermal-Flow-Structural | General purpose 1D element that supports tension and compression, torsion, bending in two perpendicular planes, and shear in two perpendicular planes. | 1D Mesh or 1D Connection | Bar (PBAR)Bar Cross Section (PBARL) | For the thermal solver, specify the thermo-optical properties for radiation in the physical property table. |
| Beam | CBEAM | StructuralThermalCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-FlowCoupled Thermal-Flow-Structural | General purpose 1D element that supports tension and compression, torsion, bending in two perpendicular planes, and shear in two perpendicular planes. | 1D Mesh or 1D Connection | Beam (PBEAM)Beam Cross Section (PBEAML) | For the thermal solver, specify the thermo-optical properties for radiation in the physical property table. |
| Interpolation Constraint Element | RSPLINE | Structural | 1D elastic interpolation constraint element that you can use to connect 2-100 nodes. | 1D Mesh 1D Connection Element Create | – | You can use the D/L option in the Mesh Associated Data dialog box to specify the ratio of the diameter of the elastic tube to the sum of the lengths of all segments.You can use the Interpolation Constraint options in the Element Associated Data dialog box to specify which degrees of freedom to constrain for the dependent nodes of the RSPLINE element. |
| Interpolation Element | RBE3 | StructuralCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-Flow-Structural | Interpolation constraint element created with the 1D Connection command | 1D Connection | – | – |
| Duct | N/A | ThermalCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-FlowCoupled Thermal-Flow-Structural | Thermal duct or stream element | 1D Mesh or 1D Connection | DuctDuct with Thick WallDuct with Mass FlowDuct AxisymmetricDuct with Mass Flow Axisymmetric | Modeling ducts with 1D elementsFor the thermal solver, specify the thermo-optical properties for radiation in the Duct with Thick Wall physical property table. Duct and stream elements do not participate in radiation calculations. Only the duct wall can participate in radiation calculations.Use the Duct Axisymmetric and Duct with Mass Flow Axisymmetric physical properties to model annular ducts using axisymmetric curves in a thermal model, which has both axisymmetric elements and non-axisymmetric elements. The axisymmetric elements cannot share nodes with the non-axisymmetric elements. |
| Rigid Bar | RBAR | StructuralCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-Flow-Structural | Rigid bar element | – | Enter element attributes in the Mesh Associated Data dialog box or Element Associated Data dialog box. | |
| Rigid Link | RBE2 | StructuralCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-Flow-Structural | Rigid link | – | Enter element attributes in the Mesh Associated Data dialog box or Element Associated Data dialog box. |
2D elements
| Element name | Corresponding Simcenter Nastran element name | Analysis type | Description | Pre/Post command | Physical property table namesNOTE | Additional information |
|---|---|---|---|---|---|---|
| Axisymmetric Linear or Parabolic Quadrilateral | CQUADX4****CQUADX8 | Structural with the 2D Solid Option set to anything other than NoneThermal with the 2D Solid Option set to anything other than NoneCoupled Thermal-Structural with the 2D Solid Option set to anything other than NoneCoupled Flow-Structural with the 2D Solid Option set to anything other than NoneCoupled Thermal-Flow with the 2D Solid Option set to anything other than NoneCoupled Thermal-Flow-Structural with the 2D Solid Option set to anything other than None | Isoparametric and axisymmetric quadrilateral cross-section ring element with or without midside nodes | 2D Mesh or 2D Mapped Mesh | Solid (PSOLID) | Enter element attributes in the Mesh Associated Data dialog box. For the thermal solver, specify the thermo-optical properties for radiation in the physical property table. |
| Axisymmetric Linear or Parabolic Triangle | CTRAX3****CTRAX6 | Isoparametric and axisymmetric triangular cross-section ring element with or without midside nodes | ||||
| Chocking Linear or Parabolic Quadrilateral | CCHOCK4****CCHOCK8 | 4- or 8-noded quadrilateral axisymmetric element for special modeling situations | 2D Mesh or 2D Mapped Mesh | Chocking Property (PCHOCK) | Chocking elementsEnter element attributes in the Mesh Associated Data dialog box or Element Associated Data dialog box. For the thermal solver, specify the thermo-optical properties for radiation in the physical property table. | |
| Chocking Linear or Parabolic Triangle | CCHOCK3****CCHOCK6 | 3- or 6-noded triangular axisymmetric element for special modeling situations | ||||
| Plane Strain Linear or Parabolic Triangle | CPLSTN3****CPLSTN6 | 3- or 6-noded triangular plane strain element | Plane Property (PPLANE)Generalized Plane Strain Property (PGPLSN) | Enter element attributes in the Mesh Associated Data dialog box. For the thermal solver, specify the thermo-optical properties for radiation and top to bottom couplings for two-layer shells in the physical property table. | ||
| Plane Strain Linear or Parabolic Quadrilateral | CPLSTN4****CPLSTN8 | 4- or 8-noded quadrilateral plane strain element | ||||
| Plane Stress Linear or Parabolic Triangle | CPLSTS3****CPLSTS6 | 3- or 6-noded triangular plane stress element | Plane Property (PPLANE) | Enter element attributes in the Mesh Associated Data dialog box or Element Associated Data dialog box. For the thermal solver, specify the thermo-optical properties for radiation and top to bottom couplings for two-layer shells in the physical property table. | ||
| Plane Stress Linear or Parabolic Quadrilateral | CPLSTS4****CPLSTS8 | 4- or 8-noded quadrilateral plane stress element | ||||
| Coating Linear or Parabolic Quadrilateral | N/A | ThermalFlowCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-FlowCoupled Thermal-Flow-Structural | 4- or 8-noded quadrilateral thin shell element | Coating | Special considerations for thermal meshingFor the thermal solver, specify the thermo-optical properties for radiation and top to bottom couplings for two-layer shells in the physical property table.The Coating physical property is not present in Flow and Coupled Flow-Structural analyses because it is not needed. | |
| Coating Linear or Parabolic Triangle | N/A | 3- or 6-noded triangular thin shell element | ||||
| Linear or Parabolic Quadrilateral | CQUADR | StructuralThermalCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-FlowCoupled Thermal-Flow-Structural | 4- or 8-noded quadrilateral thin shell element | Thin Shell (PSHELL)Laminate (PCOMP and PCOMPG) | For more information, see 2D meshes for Multiphysics structural solutionsEnter element attributes in the Mesh Associated Data dialog box or Element Associated Data dialog box. For the thermal solver, specify the thermo-optical properties for radiation and top to bottom couplings for two-layer shells in the physical property table.The Laminate physical property is only supported in Structural analysis. | |
| Linear or Parabolic Triangle | CTRIAR | 3- or 6-noded triangular thin shell element | ||||
| Linear or Parabolic Quadrilateral Seed | N/A | StructuralThermalCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-FlowCoupled Thermal-Flow-Structural | 4- or 8-noded quadrilateral thin shell element that is only used to control the placement of nodes in an associated solid mesh. | Laminate | 2D meshes for Multiphysics structural solutions | |
| Linear or Parabolic Triangle Seed | N/A | 3- or 6-noded triangular thin shell element that is only used to control the placement of nodes in an associated solid mesh. |
3D elements
| Element name | Corresponding Simcenter Nastran element name | Analysis type | Description | Pre/Post command | Physical property table namesNOTE | Additional information |
|---|---|---|---|---|---|---|
| Linear or Parabolic Cohesive Hexahedron | CHEXCZ | StructuralThermalCoupled Thermal-StructuralCoupled Flow-StructuralCoupled Thermal-FlowCoupled Thermal-Flow-Structural | 8- to 20-noded cohesive hexahedral solid element | 3D Swept Mesh with Type set to Manual Between | Cohesive Property (PSOLCZ) | Cohesive elementsEnter element attributes in the Mesh Associated Data dialog box. |
| Linear or Parabolic Cohesive Wedge | CPENTCZ | 6- to 15-noded cohesive pentahedral (wedge) solid element | 3D Swept Mesh with Type set to Manual BetweenNote: This element type is created automatically by the software to model transition areas. | |||
| Linear or Parabolic Hexahedron | CHEXA | 8- to 20-noded hexahedral solid element | 3D Swept Mesh or 3D Hybrid Mesh or 3D Hybrid from Shell Mesh | Solid (PSOLID)Solid Laminate | Enter element attributes in the Mesh Associated Data dialog box.This software exports the Solid Laminate property table as the PSOLID entry if the laminate is homogenous and as the PCOMPS entry if the laminate is layered.For the thermal solver, specify the thermo-optical properties for radiation in the physical property table. | |
| Linear or Parabolic Wedge | CPENTA | 6- to 15-noded pentahedral (wedge) solid element | 3D Swept Mesh 3D Tetrahedral Mesh or 3D Hybrid Mesh with Boundary Layer mesh controlNote: This element type is created automatically by the software to model transition areas. | |||
| Linear or Parabolic Pyramid | CPYRAM | 5- to 13-noded pyramid solid element | 3D Tetrahedral Mesh or 3D Hybrid Mesh or 3D Hybrid from Shell Mesh Note: In the 3D Tetrahedral Mesh dialog box, select the Transition with Pyramid Elements check box to create transitional pyramid elements between the tetrahedral mesh and an adjacent hexahedral mesh. | |||
| Linear or Parabolic Tetrahedron | CTETRA | 4- to 10-noded tetrahedral solid element | 3D Tetrahedral Mesh or Solid from Shell or 3D Hybrid Mesh or 3D Hybrid from Shell Mesh | |||
| Fluid Linear or Parabolic Hexahedron | N/A | FlowCoupled Flow-StructuralCoupled Thermal-FlowCoupled Thermal-Flow-Structural | 8- to 20-noded hexahedral fluid element | 3D Swept Mesh or 3D Hybrid Mesh or 3D Hybrid from Shell Mesh | Fluid | – |
| Fluid Linear or Parabolic Wedge | N/A | 6- to 15-noded pentahedral (wedge) fluid element | 3D Swept Mesh 3D Tetrahedral Mesh or 3D Hybrid Mesh with Boundary Layer mesh controlNote: This element type is created automatically by the software to model transition areas. | |||
| Fluid Linear or Parabolic Pyramid | N/A | 5- to 13-noded pyramid fluid element | 3D Tetrahedral Mesh or 3D Hybrid Mesh or 3D Hybrid from Shell Mesh Note: In the 3D Tetrahedral Mesh dialog box, select the Transition with Pyramid Elements check box to create transitional pyramid elements between the tetrahedral mesh and an adjacent hexahedral mesh. | |||
| Fluid Linear or Parabolic Tetrahedron | N/A | 4- to 10-noded tetrahedral fluid element | 3D Tetrahedral Mesh or Solid from Shell or 3D Hybrid Mesh or 3D Hybrid from Shell Mesh |
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Source: https://docs.sw.siemens.com/en-US/doc/289054037/PL20200601120302950.advanced/xid1134165 · retrieved 2026-07-17