Block Format Keyword In this group, keywords are used to set default value, global parameter, analysis type, input/output print,
damping and ALE and CFD treatment for the whole model. For default value, it is still possible to overwrite in each
specific keywords.
Block Format Keyword In this group, keywords are used to combine material and property information (/PART), assemble model (/SUBSET) or define a separate model (//SUBMODEL).
Block Format Keyword Interfaces solve the contact and impact conditions between two parts of a model. Several interface types are available
in Radioss and use different contact treatments.
Block Format Keyword This law models a viscous-elastic foam material with unloading/reloading
like plastic behavior. This law is applicable only for solid elements and is typically used
to model low density, closed cell polyurethane foams such as impact limiters.
Block Format Keyword This law describes the Boltzmann (visco-elastic) material. This law is applicable only for solid, shell, truss and
integrated beam elements and can be used to model polymers and elastomers.
Block Format Keyword This law describes a visco-elastic foam material using Generalized Maxwell-Kelvin-Voigt model where viscosity is based
on Navier equations.
Block Format Keyword This keyword defines a hyperelastic, viscous, and incompressible material specified using the Ogden, Mooney-Rivlin material
models.
Block Format Keyword This law describes the hyper visco-elastic material. This law is compatible with solid and shell elements. In general
it is used to model polymers and elastomers.
Block Format Keyword This law is an extension of /MAT/LAW42 (OGDEN) and defines a hyperelastic and incompressible material specified using the Ogden, Mooney-Rivlin material models.
Block Format Keyword This open cell foam material law is a generalization of LAW70. It accounts for a non-viscous compressible ideal gas flow inside of the foam and its interaction with the foam structure.
Block Format Keyword This keyword defines the Ogden material. This law is compatible with solid and shell elements. In general it is used
to model polymers and elastomers.
Block Format Keyword This law represents the behavior of a hyperelastic material with strain rate effects. This law is generally used to model
incompressible rubbers, polymers, foams, and elastomers. It is defined by a family of stress versus strain curves at
different strain rates.
Block Format Keyword This law describes the YEOH material model, which can be used to model incompressible hyperelastic behavior.
This law is only compatible with solid elements.
Block Format Keyword This law is a time and temperature dependent material model for thermoplastic polymers using a thermodynamic approach
with physically-based multiscale internal state variables. This law is only available for solid elements.
Block Format Keyword Describes the Marlow material model, which can be used to model hyper elastic behavior. This law is only compatible
with solid elements.
Block Format Keyword Radioss supports several different kinematic constraints, which are mainly used to impose acceleration, velocity, displacement
or temperature in structure or constraint the moving of structure. They are mutually exclusive for each degree-of-freedom
(DOF). Two kinematic conditions applied to the same node may be incompatible.
Block Format Keyword In Radioss the following load cases are available. Stress/strain as initial state could be considered by modeling, as well as
pressure, gravity, and thermal load.
Block Format Keyword Adaptive Meshing is used in metal forming to divide the element to better describe the geometry. /ADMESH/GLOBAL and /ADMESH/SET are not available for SPMD computation.
Optimization Keyword This manual contains the description of the keywords for the Radioss optimization. This manual is compatible with the version 2018 of Radioss.
These materials can be used to represent hyper and visco-elastic
materials.
/MAT/LAW33 (FOAM_PLAS) Block Format Keyword This law models a viscous-elastic foam material with unloading/reloading like plastic behavior. This law is applicable only for solid elements and is typically used to model low density, closed cell polyurethane foams such as impact limiters.
/MAT/LAW34 (BOLTZMAN) Block Format Keyword This law describes the Boltzmann (visco-elastic) material. This law is applicable only for solid, shell, truss and integrated beam elements and can be used to model polymers and elastomers.
/MAT/LAW35 (FOAM_VISC) Block Format Keyword This law describes a visco-elastic foam material using Generalized Maxwell-Kelvin-Voigt model where viscosity is based on Navier equations.
/MAT/LAW38 (VISC_TAB) Block Format Keyword This law describes the visco-elastic foam tabulated material and can only be used with solid elements.
/MAT/LAW40 (KELVINMAX) Block Format Keyword This law describes the generalized Maxwell-Kelvin material. This law can only be used with solid elements.
/MAT/LAW42 (OGDEN) Block Format Keyword This keyword defines a hyperelastic, viscous, and incompressible material specified using the Ogden, Mooney-Rivlin material models.
/MAT/LAW62 (VISC_HYP) Block Format Keyword This law describes the hyper visco-elastic material. This law is compatible with solid and shell elements. In general it is used to model polymers and elastomers.
/MAT/LAW69 Block Format Keyword This law is an extension of /MAT/LAW42 (OGDEN) and defines a hyperelastic and incompressible material specified using the Ogden, Mooney-Rivlin material models.
/MAT/LAW70 (FOAM_TAB) Block Format Keyword This law describes the visco-elastic foam tabulated material. This material law can be used only with solid elements.
/MAT/LAW77 Block Format Keyword This open cell foam material law is a generalization of LAW70. It accounts for a non-viscous compressible ideal gas flow inside of the foam and its interaction with the foam structure.
/MAT/LAW82 Block Format Keyword This keyword defines the Ogden material. This law is compatible with solid and shell elements. In general it is used to model polymers and elastomers.
/MAT/LAW88 Block Format Keyword This law represents the behavior of a hyperelastic material with strain rate effects. This law is generally used to model incompressible rubbers, polymers, foams, and elastomers. It is defined by a family of stress versus strain curves at different strain rates.
/MAT/LAW90 Block Format Keyword This law describes the visco-elastic foam tabulated material. This material law can be used only with solid elements.
/MAT/LAW92 Block Format Keyword This law describes the Arruda-Boyce material model, which can be used to model hyperelastic behavior.
/MAT/LAW94 (YEOH) Block Format Keyword This law describes the YEOH material model, which can be used to model incompressible hyperelastic behavior. This law is only compatible with solid elements.
/MAT/LAW95 (BERGSTROM_BOYCE) Block Format Keyword This law is a constitutive model for predicting the nonlinear time dependency of elastomer like materials.
/MAT/LAW100 (MNF) Block Format Keyword The multi network framework or MNF is used to model polymers and elastomers with nonlinear viscous behavior.
/MAT/LAW101 Block Format Keyword This law is a time and temperature dependent material model for thermoplastic polymers using a thermodynamic approach with physically-based multiscale internal state variables. This law is only available for solid elements.
/MAT/LAW111 Block Format Keyword Describes the Marlow material model, which can be used to model hyper elastic behavior. This law is only compatible with solid elements.