Properties
Property entities define and store 1D, 2D, and 3D property definitions for a model.
Properties do not have a display state in the modeling window. You can color the model according to the colors assigned to each property, which is based on element property relationships, by changing the color mode to propety.
Element property relationships are dependent on the solver interface. In general, when a component is assigned a property, that property assignment is applied to all elements collected by that component. The method of assigning properties at the component level is therefore referred to as indirect property assignment. Direct property assignment is performed directly on the elements themselves, typically via a property assignment. Direct property assignments always take precedence over indirect property and material assignments.
Abaqus Cards
Card | Description |
---|---|
*ADAPTIVE CONTROLS | Controls various aspects of the adaptive meshing and advection algorithms applied to an adaptive mesh domain. |
*BEAM ADDED INERTIA | Define additional beam inertia. |
*BEAM GENERAL SECTION | Specify a beam section when numerical integration over the section is not
required. Note: Only one *BEAM GENERAL SECTION card is output per component,
therefore the beam elements in each component must have the same cross-sectional
properties.
|
*BEAM SECTION | Specify a beam section when numerical integration over the section is
required. Note: Only one *BEAM SECTION card is output per component, therefore
the beam elements in each component must have the same cross-sectional
properties.
|
*COHESIVE SECTION | Specify element properties for cohesive elements. |
*CONNECTOR SECTION | Specify connector attributes for connector elements. Note:
The following types are supported: Standard template: , Explicit template:
All listed above, as well as ROTATION-ACCELEROMETER |
*CONTACT DAMPING | Define viscous damping between contacting surfaces. Note: This card is a
sub-option in the *SURFACE INTERACTION card image.
|
*DASHPOT | Define dashpot behavior. Note: Only one *DASHPOT card is output per component, therefore the spring
elements in each component must have the same properties.
When the *DASHPOT card is written for DASHPOT1 elements, both dof1 and dof2 are written, but Abaqus only reads dof1. For DASHPOTA elements, choose the DASHPOTA option in the *DASHPOT card image. |
*ELEMENT PROPERTIES | |
*EULERIAN SECTION | Define properties of Eulerian continuum elements, including the list of materials that may occupy the elements. |
*FASTENER (SPOT WELD) PROPERTY | Prescribe mesh-independent fastener properties. |
*FLUID BULK MODULUS | Define compressibility for a hydraulic fluid. Note: This option is used to
define compressibility for the hydraulic fluid model. It can only be used in
conjunction with the *FLUID BEHAVIOR option or the
*FLUID PROPERTY option.
|
*FLUID DENSITY | Specify hydrostatic fluid density. Note: This option is used to define the
reference fluid density for fluid cavities. It is only applicable for hydraulic
and pneumatic fluids, and should not be used for user-defined fluids. The
*FLUID DENSITY option can only be used in conjunction with
the *FLUID BEHAVIOR option or the *FLUID
PROPERTY option.
|
*FLUID EXPANSION | Specify the thermal expansion coefficient for a hydraulic fluid. Note: This
option is used to define thermal expansion coefficients for the hydraulic fluid
model. It can only be used in conjunction with the *FLUID
BEHAVIOR option or the *FLUID PROPERTY
option.
|
*FLUID PROPERTY | Define properties for hydrostatic fluid elements. |
*FRICTION | Specify a friction model. Note: This card is a sub-option in the *SURFACE
INTERACTION card image. It is also supported as a separate card image to allow
for it to be used as a sub-option of the *CONNECTOR FRICTION card (in *CONNECTOR
BEHAVIOR).
|
*GAP | Specify clearance and local geometry for GAP-type elements. Note: Only one
*GAP card is output per component, therefore the gap elements in each component
must have the same properties.
Not available in the Explicit template. |
*GASKET SECTION | Specify element properties for gasket elements. Note: Not available in the
Explicit template.
|
*ITS | Define the properties for ITS-type elements. |
*JOINT | Define properties for JOINTC elements. Note: Only one *JOINT card is output
per component, therefore the spring elements in each component must have the
same properties.
The *SPRING and *DASHPOT cards in the *JOINT property behave the same way as the individual cards mentioned above. See the How do I section below for more information. Not available in the Explicit template. |
*M1 | Define the first bending moment behavior of beams. |
*M2 | Define the second bending moment behavior of beams. |
*MASS | Specify a point mass. Note: Only one *MASS card is output per component,
therefore the mass elements in each component must have the same
properties.
|
*MEMBRANE SECTION | Specify section properties for membrane elements. |
*NONSTRUCTURAL MASS | Specify mass contribution to the model from nonstructural features. Note: Only
available in the Explicit template.
|
*PHYSICAL CONSTANTS | Specify physical constants. |
*REBAR LAYER | Reinforcement definition Note: The keyword is available in the card image of
the SHELL SECTION (homogeneous and composite), MEMBRANE SECTION, and SURFACE
SECTION.
|
*RIGID BODY | Define a set of elements as a rigid body and define rigid element
properties. Note: For Analytical Rigid Surfaces, the ANALYTICAL
SURFACE parameter should point to the corresponding
ANALYTICAL_RIGID_SURFACE group from the card image of the *RIGID BODY
card.
|
*ROTARY INERTIA (no longer listed on panel) | Define rigid body rotary inertia. Note: Only one *ROTARY INERTIA card is
output per component, therefore the ROTARY1 elements in each component must have
the same properties.
|
*SECTION CONTROLS | Specify section controls. |
*SHELL GENERAL SECTION | Define a general, arbitrary, elastic shell section. |
*SHELL SECTION | Specify a shell cross-section. |
*SOLID SECTION | Specify element properties for solid, infinite, acoustic, and truss elements. |
*SPRING | Define spring behavior. Note: Only one *SPRING card is output per component, therefore the spring
elements in each component must have the same properties.
When the *SPRING card is written for SPRING1 elements, both dof1 and dof2 are written, but Abaqus only reads dof1. For SPRINGA elements, choose the SPRINGA option in the *SPRING card image. |
*SURFACE BEHAVIOR | Define alternative pressure-overclosure relationships for contact. Note: This
card is a sub-option in the *SURFACE INTERACTION card image.
|
*SURFACE INTERACTION | Define surface interaction properties. Note: For Abaqus Explicit template, this card is defined as a
group.
|
*SURFACE PROPERTY / *EMISSIVITY | Define surface properties for cavity radiation analysis. It must immediately precede the *EMISSIVITY option. |
*SURFACE SECTION | Specify section properties for surface elements. |
*SURFACE SMOOTHING | Create a surface smoothing definition for contact interactions. It must be used in conjunction with the *CONTACT PAIR option. |
*TRANSVERSE SHEAR STIFFNESS | Define transverse shear stiffness for beams and shells. Note: This option must
be used in conjunction with the *BEAM GENERAL SECTION,
*BEAM SECTION, *COHESIVE SECTION,
*SHELL GENERAL SECTION, or the *SHELL
SECTION options. The transverse shear stiffness defined with this
option affects only the transverse shear flexible elements whose section
properties are defined by the immediately preceding section
option.
|
ANSYS Cards
Card | Description |
---|---|
SECTYPE | Associates section type information with a section ID number. |
LS-DYNA Cards
Card | Description |
---|---|
*CONSTRAINED_JOINT_STIFFNESS_FLEXION-TORSION | Define optional rotational and translational joint stiffness for joints. |
*CONSTRAINED_JOINT_STIFFNESS_GENERALIZED | Define optional rotational and translational joint stiffness for joints. |
*CONSTRAINED_JOINT_STIFFNESS_TRANSLATIONAL | Define optional rotational and translational joint stiffness for joints. |
*DAMPING_PART_MASS | Define mass weighted damping by part ID |
*DAMPING_PART_MASS_SET | |
*DAMPING_PART_STIFFNESS | Assign Rayleigh stiffness damping coefficient by part ID |
*DAMPING_PART_STIFFNESS_SET | |
*DAMPING_RELATIVE | Apply damping relative to the motion of a rigid body. |
*DEFINE_CONNECTION_PROPERTIES | Define failure related parameters for solid element spot weld failure by *MAT_SPOTWELD_DAIMLERCHRYSLER. |
*EOS_GRUNEISEN (EOS 4) | Equation of state Form 4. |
*EOS_IDEAL_GAS (EOS 12) | Equation of state for 12 for modeling ideal gas. |
*EOS_IGNITION_AND_GROWTH_OF_REACTION_IN_HE (EOS 7) | Equation of state Form 7. |
*EOS_JWL (EOS 2) | Equation of state Form 2. |
*EOS_LINEAR_POLYNOMIAL (EOS 1) | Equation of state Form 1. Define coefficients for linear polynomial EOS and initialize the initial thermodynamic state of the material. |
*EOS_LINEAR_POLYNOMIAL_WITH_ENERGY_LEAK (EOS 6) | Equation of state Form 6. |
*EOS_PROPELLANT_DEFLAGRATION (EOS 10) | Equation of state Form 10. Added to model airbag propellants. |
*EOS_RATIO_OF_POLYNOMIALS (EOS 5) | Equation of state Form 5. |
*EOS_SACK_TUESDAY (EOS 3) | Equation of state Form 3. |
*EOS_TABULATED (EOS 9) | Equation of state Form 9. |
*EOS_TABULATED_COMPACTION (EOS 8) | Equation of state Form 8. |
*EOS_TENSOR_PORE_COLLAPSE (EOS 11) | Equation of state Form 11. |
*INTEGRATION_BEAM | Define user defined through the thickness integration rules for the beam element. |
*INTEGRATION_SHELL | Define user defined through the thickness integration rules for the shell element. |
*MAT_ADD_EROSION | Many of the consitutive models in LS-DYNA do not allow failure and erosion. This option provides a way of including failure in these models although the option can also be applied to constitutive models of other failure/erosion criterion. |
*SECTION_BEAM(TITLE) | Define cross sectional properties for beam, truss, discrete beam and cable elements. |
*SECTION_BEAM_AISC | Defines cross-sectional properties for beams and trusses. |
*SECTION_DISCRETE(TITLE) | Define spring and damper elements for translation and rotation. |
*SECTION_POINT_SOURCE(TITLE) | Provides the inlet boundary condition for single gas flow (inflation potential) via a set of point source(s). |
*SECTION_POINT_SOURCE_MIXTURE(TITLE) | Provides: (a) an element formulation for a solid ALE part of the type similar to ELFORM=11 of *SECTION_SOLID and (b) the inlet gas injection boundary condition for multiple-gas mixture in-flow via a set of point sources. |
*SECTION_SEATBELT(TITLE) | Define section properties for the seat belt elements. |
*SECTION_SHELL(TITLE) | Define section properties for shell elements. |
*SECTION_SHELL_ALE(TITLE) | Define section properties for shell elements. |
*SECTION_SHELL_EFG(TITLE) | Define section properties for shell elements. |
*SECTION_SOLID(TITLE) | Define section properties for solid continuum and fluid elements. |
*SECTION_SOLID_ALE(TITLE) | Define section properties for solid continuum and fluid elements. |
*SECTION_SOLID_EFG(TITLE) | Define section properties for solid continuum and fluid elements. |
*SECTION_SPH | Define section properties for SPH particles. |
*SECTION_SPH_TENSOR | |
*SECTION_SPH_USER | |
*SECTION_TSHELL(TITLE) | Define section properties for SPH particles. |
Nastran Cards
Only one card image can be loaded into each property collector.
1D elements can be grouped into components with 2D and 3D elements for display purposes. The component groupings are maintained on export and import.
Properties for PBAR and PBEAM cards can be manually input in the card image or automatically created.
The HM_ELAS card defines properties for an HM_Spring element.
The Nastran and OptiStruct solver interfaces allow the property between groups to have the same ID. For example, PBAR3, PSHELL 3 and PSOLID 3. Duplicate IDs within the same group is not allowed.
- 0D_Rigids
- PMASS
- 1D
- PBAR, PBARL, PBEAM, PBEAML, PBEAND, PROD, PTUBE, PWELD
- SPRING_GAP
- PBUSH, PBUSH1D, PDAMP, PELAS, PGAP, PVISC
- 2D
- PSHELL, PSHEAR, PCOMP, PCOMG
- 3D
- PSOLID
Card | Description |
---|---|
BCBDPRP | Defines contact body parameters. |
BCONPRG | Defines geometric contact parameters of touching bodies. |
BCONPRP | Defines physical contact parameters of touching bodies. |
PAABSF | Defines the properties of a frequency-dependent acoustic absorber element. |
PACABS | Defines the properties of the acoustic absorber element. |
PACBAR | Defines the properties of the acoustic barrier element. Note: PACBAR is
referenced by a CHACBR entry only.
Either FRESON or KRESON must be specified, but not both. |
PACINF | Defines the properties of acoustic conjugate infinite elements. |
PAERO1 | Defines associated bodies for the panels in the Doublet-Lattice method. |
PAERO2 | Defines the cross-sectional properties of aerodynamic bodies. |
PAXSYMH | Defines the properties of a linear axisymmetric harmonic element. |
PBAR | Defines the properties of a simple beam element (CBAR entry). |
PBARL | Defines the properties of a simple beam element (CBAR entry) by cross-sectional dimensions. |
PBEAM | Defines the properties of a beam element (CBEAM entry). This element may be
used to model tapered beams. Note: Blank fields are not supported for intermediate
stations. Appropriate default values are inserted during feinput.
|
PBEAML | Defines the properties of a beam element by cross-sectional
dimensions. Note: Blank fields are not supported for intermediate stations.
Appropriate default values are inserted during feinput.
|
PBEND | Defines the properties of a curved beam, curved pipe, or elbow element (CBEND entry). |
PBUSH | Defines the nominal property values for a generalized spring-and-damper structural element. |
PBUSH1D | Defines linear and nonlinear properties of a one-dimensional spring and damper element (CBUSH1D entry). |
PBUSHT | Defines the frequency dependent properties or the stress dependent properties for a generalized spring and damper structural element. |
PCOMP | Defines the properties of an n-ply composite material laminate. |
PCOMPG | Defines global (external) ply IDs and properties for a composite material laminate. |
PCOMPLS | Defines global (external) ply IDs and properties for a composite material laminate in SOL 600 and SOLs 400 and 700. |
PCONVM | Specifies forced convection boundary condition properties for a boundary condition surface element. |
PDAMP | Specifies the damping value of a scalar damper element using defined CDAMP1 or CDAMP3 entries. |
PELAS | Specifies the stiffness, damping coefficient, and stress coefficient of a scalar elastic (spring) element (CELAS1 or CELAS3 entry). |
PELAST | Defines the frequency dependent properties for a PELAS Bulk Data entry. |
PFAST | Defines the CFAST fastener property values. |
PGAP | Defines the properties of the gap element (CGAP entry). |
PHBDY | Property entry referenced by a CHBDYP element to give auxiliary geometric information for it. |
PLPLANE |
Defines the properties of a fully nonlinear (i.e., large strain and large rotation) hyperelastic plane strain or axisymmetric element. |
PLSOLID | Defines a fully nonlinear (i.e., large strain and large rotation) hyperelastic solid element. |
PMASS | Specifies the mass value of a scalar mass element (CMASS1 or CMASS3 entries). |
PROD | Defines the properties of a rod element (CROD entry). |
PSEAM | Defines the PSEAM property values. |
PSHEAR | Defines the properties of a shear panel (CSHEAR entry). |
PSHELL | Defines the membrane, bending, transverse shear, and coupling properties of thin shell elements. |
PSHELL1 | Defines the properties of SOL 700 shell elements, which are more complicated than the shell elements defined using the PSHELL entry. |
PSHLN1 | |
PSOLID | Defines the properties of solid elements (CHEXA, CPENTA, and CTETRA entries). |
PTUBE | Defines the properties of a thin-walled cylindrical tube element (CTUBE entry). |
PVISC | Defines properties of a one-dimensional viscous damping element (CVISC entry). |
PWELD | Defines the properties of connector (CWELD) elements. |
OptiStruct Cards
Only one property definition is allowed on each property collector. For definitions like PMASS, which allow more than one definition on the same card, this is separated on import into four different cards.
Card | Description |
---|---|
HM_ELAS | Defines properties for a HM_Spring element. Note: Bulk Data Entry
|
PAABSF | Defines the properties of the fluid acoustic absorber
element. Note: Bulk Data Entry
|
PAXI | Defines the properties of axisymmetric elements. Referenced
by CTAXI entry. Note: Bulk Data Entry
Referenced by CTAXI. |
PBAR | Defines the properties of a simple beam (bar), which is used
to create bar elements via the CBAR entry. Note: Bulk Data Entry
Exported in large field format by optistructlf template. |
PBARL | Defines the properties of a simple beam (bar) by
cross-sectional dimensions, which is used to create bar elements via the
CBAR entry. Note: Bulk Data Entry
Exported in large field format by optistructlf template. |
PBEAM | Defines the properties of beam elements defined via the
CBEAM entry. Note: Bulk Data Entry
Exported in large field format by optistructlf template. |
PBEAML | Defines the properties of a beam element by
cross-sectional dimensions that are used to create beam elements via the
CBEAM entry. Note: Bulk Data Entry
|
PBUSH | Defines the nominal property values for a generalized
spring-damper-mass structural element. Note: Bulk Data Entry
|
PBUSH1D | Defines the linear and nonlinear properties for a
one-dimensional spring-and-damper structural element. Note: Bulk Data Entry
|
PCOMP | Defines the structure and properties of an n-ply composite
laminate material. Note: Bulk Data Entry
Exported in large field format by optistructlf template. |
PCOMPG | Defines the structure and properties of a composite
laminate material, allowing for global ply identification. Note: Bulk Data Entry
Exported in large field format by optistructlf template. |
PCOMPP | Defines the properties of a composite laminate material
used in ply-based composite definition. Note: Bulk Data Entry
Exported in large field format by optistructlf template. |
PCONT | Defines properties of a CONTACT
interface. Note: Bulk Data Entry
|
PCONTX | Defines properties of a CONTACT
interface for geometric nonlinear analysis. Note: Bulk Data Entry
|
PDAMP | Specifies the damping of a scalar damper element using
defined CDAMP1 or CDAMP3 entry. Note: Bulk Data Entry
|
PELAS | Used to define the stiffness and stress coefficient of a
scalar elastic element (spring) by means of the CELAS1 or
CELAS3 entry. Note: Bulk Data Entry
|
PFAST | Define properties of connector (CFAST)
elements. Note: Bulk Data Entry
|
PGAP | Defines properties of the gap (CGAP or
CGAPG) elements. Note: Bulk Data Entry
|
PGASK | Defining the properties for solid gasket
elements. Note: Bulk Data Entry
|
PLSOLID | Defines the properties of nonlinear hyperelastic solid
elements, referenced by CHEXA, CPENTA, and
CTETRA Bulk Data Entries. The MATHE
hyperelastic material can be referenced to define corresponding material
properties. Note: Bulk Data Entry
|
PMASS | Defines the mass value of a scalar mass element
(CMASS1 or CMASS3 entry). Note: Bulk Data Entry
|
PROD | Defines the properties of a rod, which is referenced by the
CROD entry. Note: Bulk Data Entry
Exported in large field format by optistructlf template. |
PSHEAR | Defines the properties of a shear panel. Note: Bulk Data Entry
|
PSHELL | Defines the membrane, bending, transverse shear, and
membrane-bending coupling of shell elements. Note: Bulk Data Entry
Exported in large field format by optistructlf template. |
PSOLID | Defines the properties of solid elements, referenced by
CHEXA, CPENTA, CPYRA and
CTETRA Bulk Data Entries. Note: Bulk Data Entry
|
PTUBE | Defines the properties of a thin-walled cylindrical tube
element, referenced by a CTUBE entry. Note: Bulk Data Entry
|
PVISC | Defines properties of a one-dimensional viscous damping
element (CVISC entry). Note: Bulk Data Entry
|
PWELD | Defines properties of connector (CWELD)
elements. Note: Bulk Data Entry
|
PAM-CRASH Cards
Card | Description |
---|---|
FRICT / | Friction modeling definition. |
GASPEC / | Specification of air bag gas. |
RUPMO / | Rupture model definition. |
Permas Cards
Card | Description |
---|---|
$GEODAT BEAM | Beam |
$GEODAT CONA | Surface convection |
$GEODAT CONS | Shell surface convection |
$GEODAT DAMPER | Viscous damper |
$GEODAT FLANGE | Flange |
$GEODAT GASKET | Gasket |
$GEODAT MASS | Mass |
$GEODAT SCALAR | Scalar |
$GEODAT SHELL | Shell |
$GEODAT SOLID | Solid |
$GEODAT SPRING | Spring |
$GEODAT SPRINGX | Spring |
Radioss Cards
Radioss allows you to program your own properties, mostly for springs, that can be used in a simulation. Unsupported Radioss properties and user defined Radioss properties are assigned the PROP_UNSUPPORTED card image.
HyperMesh imports unsupported properites with the PROP_UNSUPPORTED card image, and preserves their corresponding IDs and associated components.
In the PROP_UNSUPPORTED card image, all property sub-options, parameters, and data lines are supported as simple text. HyperMesh does not check the validity or syntax of any data in this mode. You must manually check the validity of the data. No editing, updating, or review of the property data is intended. Also time step calculation and mass calculation are not available for the component that refers to this property.
Card | Description |
---|---|
/ADMESH/SET | Defines the criteria for adaptive meshing in parts.
This keyword is not available for SPMD computation. Note: Block Format Keyword
|
/DAMP/ | Defines the Rayleigh mass and stiffness damping
coefficients applied to a set of nodes. The damping can be applied to any nodal DOF
either in local or global coordinate system. Note: Block Format Keyword
|
/EOS/GRUNEISEN | Describes the Gruneisen equation of
state. Note: Block Format Keyword
|
/EOS/POLYNOMIAL | Describes the Linear polynomial equation of
state P( ρ ,E). Note: Block Format Keyword
|
/EOS/PUFF | Describes the linear polynomial equation of state
P(ρ,E) . Note: Block Format Keyword
|
/EOS/SESAME | Describes the SESAME table equation of
state. Note: Block Format Keyword
|
/EOS/TILLOTSON | Describes the Tillotson equation of
state. Note: Block Format Keyword
|
/FAIL | Describes the failure models. Note: Block Format Keyword
|
/FAIL/CHANG | Describes the Chang failure model. Note: Block Format Keyword
|
/FAIL/CONNECT | Describes the failure model for CONNECTION
material with elongation criteria and/or energy criteria. Note: Block Format Keyword
|
/FAIL/ENERGY | Describes a specific energy failure
model. Note: Block Format Keyword
|
/FAIL/FLD | Describes the forming limit. Note: Block Format Keyword
|
/FAIL/HASHIN | Describes the Hashin failure model. This failure
model is available for Shell and Solid. Note: Block Format Keyword
|
/FAIL/JOHNSON | Describes the failure criteria by Johnson-Cook
failure model. Note: Block Format Keyword
|
/FAIL/LAD_DAMA | Describes the Ladeveze failure model for
delamination (interlaminar fracture). Note: Block Format Keyword
|
/FAIL/PUCK | Describes the Puck failure model. Note: Block Format Keyword
|
/FAIL/SPALLING | Describes the Spalling and Johnson-Cook failure
model. Note: Block Format Keyword
|
/FAIL/TAB1 | Describes the strain failure model based on damage
accumulation using user-defined functions. Note: Block Format Keyword
|
/FAIL/TBUTCHER | Describes a Tuler-Butcher failure
model. Note: Block Format Keyword
|
/FAIL/TENSSTRAIN | Describes a strain failure model. Note: Block Format Keyword
|
/FAIL/USERi (USER 1, 2, 3) | Describes a user failure model. Note: Block Format Keyword
|
/FAIL/WIERZBICKI | Describes the BAO-XUE-Wierzbicki failure
model. Note: Block Format Keyword
|
/FAIL/WILKINS | Describes the Wilkins failure model. Note: Block Format Keyword
|
/FAIL/XFEM | Describes a XFEM (eXtended Finite Element Method)
failure model. Note: Block Format Keyword
|
/LEAK/MAT | Specifies effective leakage area of porous airbag
fabric materials LAW19 and LAW58 as function of time, pressure, area and other
parameters. Note: Block Format Keyword
|
/PROP | Describes the property sets. Note: Block Format Keyword
|
/PROP/TYPE3 (BEAM) | Describes the beam property for torsion, bending,
membrane or axial deformation. Note: Block Format Keyword
|
/PROP/TYPE43 (CONNECT) | Designed for spotweld, welding line or glue type
connections. Only used with /MAT/CONNECT material law. Note: Block Format Keyword
|
/PROP/TYPE14 (FLUID) | Describes the general fluid property
set. Note: Block Format Keyword
|
/PROP/INJECT1 | Describes mass injected for each constituent
gas. Note: Block Format Keyword
|
/PROP/INJECT2 | Describes molar fraction injected for each
constituent gas and total mass injected. Note: Block Format Keyword
|
/PROP/TYPE18 (INT_BEAM) | Describes the integrated beam property set. This
beam model is based on Timoshenko theory and takes into account transverse shear
strain without warping in torsion. It can be used for deep beam cases (short beams).
Beam section and position of integration points can be either used as predefined or
prescribed directly. Note: Block Format Keyword
|
/PROP/TYPE33 (KJOINT) | Describes the joint type spring. Note: Block Format Keyword
|
/PROP/TYPE45 (KJOINT2) | Describes the joint type spring between two rigid
bodies. Note: Block Format Keyword
|
/PROP/TYPE19 (PLY) | Defines the ply property set used in ply-based
composite definition. It is used in combination with /PROP/STACK
(/PROP/TYPE17) or /PROP/TYPE51 to create ply-based
sandwich composite properties. Note: Block Format Keyword
|
/PROP/TYPE15 (POROUS) | Describes the porous solid element property set
(extended Darcy's law). Note: Block Format Keyword
|
/PROP/TYPE5 (RIVET) | Describes the rivet property set. Note: Block Format Keyword
|
/PROP/TYPE10 (SH_COMP) | Defines the composite shell property set. It is
possible to define composite with several layers and each layer with individual
orthotropic direction. Note: Block Format Keyword
|
/PROP/TYPE16 (SH_FABR) | Defines the anisotropic layered shell property
set. This property is currently only compatible with Elastic Anisotropic Fabric
(/MAT/LAW58 (FABR_A)) and only one layer is allowed. Note: Block Format Keyword
|
/PROP/TYPE9 (SH_ORTH) | Defines the orthotropic shell property. Note: Block Format Keyword
|
/PROP/TYPE19 (PLY) | Defines the ply property set used in ply-based
composite definition. It is used in combination with /PROP/STACK
(/PROP/TYPE17) or /PROP/TYPE51 to create ply-based
sandwich composite properties. Note: Block Format Keyword
|
/PROP/TYPE11 (SH_SANDW) | Defines the sandwich shell property set. It is
possible to define sandwich composite with several layers and each lay with
individual material, thickness, layer position and orthotropic direction. This
property is only compatible with Material Laws 15, 25, 27, 36, 60, 72 and user
laws. Note: Block Format Keyword
|
/PROP/TYPE1 (SHELL) | Describes the shell property set which used for
3-node or 4-node shell element. Belytschko, QBAT or QEPH shell formulation are
available. Note: Block Format Keyword
|
/PROP/TYPE6 (SOL_ORTH) | Describes the orthotropic solid property set. This
property set is used to define the fiber plane for
/MAT/LAW14(COMPS0), the steel reinforcement direction for
/MAT/LAW24 (CONC) or the cell direction for /MAT/LAW28
(HONEYCOMB). This property is only available for 8-node linear solid
elements (/BRICK), tetrahedron elements
(/TETRA4 and /TETRA10), and 2D solid
elements (/QUAD). Quadratic bricks (/BRIC20
and /SHEL16) and pentahedron elements
(/PENTA6) are not compatible with this property. Note: Block Format Keyword
|
/PROP/TYPE14 (SOLID) | Defines the general solid property
set. Note: Block Format Keyword
|
/PROP/SPH | Defines the axisymmetric spring property
set. Note: Block Format Keyword
|
/PROP/TYPE25 (SPR_AXI) | Defines the axisymmetric spring property
set. Note: Block Format Keyword
|
/PROP/TYPE13 (SPR_BEAM) | A beam type spring property that works as a beam
element with six independent modes of deformation. This spring accounts for
non-linear stiffness, damping and different unloading. Deformation, force and
energy-based failure criteria are available. Note: Block Format Keyword
|
/PROP/TYPE44 (SPR_CRUS) | A spring element property that represents a simple
macro model of a crushable frame in compression, tension, torsion and bending.
Originally, this element was developed in cooperation with PSA PEUGEOT
CITROËN. Note: Block Format Keyword
|
/PROP/TYPE8 (SPR_GENE) | A spring property that works with six independent
modes of deformation. This spring accounts for non-linear stiffness, damping and
different unloading. Deformation, force and energy based failure criteria are
available. The general spring property is often used to model a joint connection
between two parts. Note: Block Format Keyword
|
/PROP/TYPE32 (SPR_PRE) | Describes the pretension spring property
set. Note: Block Format Keyword
|
/PROP/TYPE12 (SPR_PUL) | A pulley spring property set (with one
translational DOF) used to model a pulley. Note: Block Format Keyword
|
/PROP/TYPE26 (SPR_TAB) |
Defines the tabulated spring property. Note: Block Format Keyword
|
/PROP/TYPE4 (SPRING) | Defines spring property with one translational DOF.
This spring accounts for non-linear stiffness, damping and different unloading.
Deformation based failure criteria is available. Note: Block Format Keyword
|
/PROP/TYPE17 (STACK) | Defines the sandwich shell property set using the
stack and ply approach. Note: Block Format Keyword
|
/PROP/TYPE2 (TRUSS) | Defines the truss property set. Note: Block Format Keyword
|
/PROP/TYPE22 (TSH_COMP) | Defines the composite thick shell property
set. Note: Block Format Keyword
|
/PROP/TYPE21 (TSH_ORTH) | Defines the orthotropic thick shell property
set. Note: Block Format Keyword
|
/PROP/TYPE20 (TSHELL) | Defines the general thick shell property
set. Note: Block Format Keyword
|
/PROP/USER | User-defined property. Note: Block Format Keyword
|
/PROP/TYPE0 (VOID) | Defines the void property set. Note: Block Format Keyword
|
/THERM_STRESS/MAT | Adds thermal expansion property for Radioss material (shell and solid). Note: Block Format Keyword
|
Samcef Cards
Card | Description |
---|---|
.BPR | Define beam profiles. |
.ETASHELL | Used to assign the laminate to the elements. The Projection method is supported. |
.ETASOLID | Used to assign the laminate to the elements. The Projection method is supported. |
.MCCBUSH | Defines the property on the BUSH element. |
.PHP SHELL | Assign physical properties to an existing mesh. |
SOLIDMAT | Assign physical properties to an existing mesh. Note: This is a dummy property
that creates a link between the elements and the material, as it is not possible
to directly assign a material to the elements.
|