Supported Material Options for xPDM Import

This section describes all the material options that are supported for import from xPDM material definitions.

See Also
Importing Material Data in xPDM Format
Material Option Dependent Parameters Independent Parameters
Cast Iron Plasticity: Plasticity Plastic Poisson's Ratio Temperature
Cast Iron Plasticity: Compression Sigma C Temperature
Epsilon T
Cast Iron Plasticity: Tension Hardening Sigma T Temperature
Epsilon T
Conductivity: Isotropic Thermal Conductivity Temperature
Damping Alpha None
Beta
Structural
Density Density Temperature
Elastic: Isotropic Young's Modulus Temperature
Poisson's Ratio
Moduli time scale (visco)
Elastic: Orthotropic D1111, D1122, D2222, D1133, D2233, D3333, D1212, D1313, and D2323 Temperature
Moduli time scale (visco)
Elastic: Engineering Constants E1, E2, E3, Nu12, Nu13, Nu23, G12, G13, and G23, Temperature
Moduli time scale (visco)
Elastic: Lamina E1, E2, Nu12, G12, G13, and G23, Temperature
Moduli time scale (visco)
Elastic: Anisotropic D1111, D1122, D2222, D1133, D2233, D3333, D1112, D2212, D3312, D1212, D1113, D2213, D3313, D1213, D1313, D1323, D2223, D3323, D1223, D1323, D2323, Temperature
Moduli time scale (visco)
Expansion: Isotropic Reference Temperature Temperature
Expansion Coefficient Alpha
Fail Strain Strain Fiber (T) Temperature
Strain Fiber (C)
Strain Transverse (T)
Strain Transverse (T)
Shear Strain
Fail Stress Strain Fiber (T) Temperature
Strain Fiber (C)
Strain Transverse (T)
Strain Transverse (T)
Shear Strength
Cross Product Term Coefficient
Equibiaxial Stress Limit
Hyperelastic: Arruda-Boyce mu, lambda m, and D Temperature
Hyperelastic: Neo-Hooke C10 and D1 Temperature
Hyperelastic: Ogden N1 to N6, mu, alpha, and D Temperature
Hyperelastic: Polynomial N1 to N6, C10, C01, and D1 Temperature
Hyperelastic: Reduced Polynomial N1 to N6, C10, and D1 Temperature
Hyperelastic: Mooney Rivlin C10, C01, and D1 Temperature
Hyperelastic: Van der Waals mu, lambda m, alpha, beta, and D Temperature
Hyperelastic: Yeoh C10, C20, C30, D1, D2, and D3 Temperature
Inelastic Heat Fraction Inelastic Heat Fraction None
Latent Heat Latent Heat None
Solidus Temperature
Liquidus Temperature
Plastic Yield Criterion: von Mises or Hill Temperature
Hardening: Isotropic Kinematic or Combined
Specific options for hardening type
Rate Dependent Hardening Type: Power Law, Yield Ratio, or Johnson-Cook Temperature
Specific options for hardening type
Specific Heat Type: Constant Volume or Constant Pressure Temperature
Specific Heat