Ansys LS-DYNA

The following properties can be exported to Ansys LS-DYNA, depending on which data table you are exporting from, and which model you select.

Default unit system is mm–g–ms, with stress and density values scaled to align with LS-DYNA’s native unit system. In the ‘mm–g–ms (Consistent)’ unit system, all stress quantities are exported in GPa, and Density is exported in kg/mm³.

MaterialUniverse

  • Density
  • Elongation
  • Poisson's ratio
  • Tangent modulus
  • True plastic stress-strain
  • Yield strength (elastic limit)
  • Young's modulus

ASME BPVC

  • Density
  • Moduli of elasticity
  • Poisson's ratio
  • Min. yield strength

ESDU MMDH

  • Density
  • Poisson's Ratio (L)
  • Elongation (L)
  • % elongation vs. Temperature
  • Young's modulus, tension (L)
  • Young's modulus, tension vs. Temperature (L)
  • 0.2% proof stress, tension (L)
  • 0.2% proof stress, tension vs Temperature (L)

Global Metals Specifications

  • Density
  • Elongation
  • Poisson's ratio
  • Tangent modulus
  • Yield strength
  • Young's modulus
  • Young's modulus with temperature

Global Polymers Plastics

  • Density
  • Poisson's ratio
  • Young's modulus
  • Prony Shear Relaxation | Number of Terms
  • Prony Shear Relaxation | Relative Moduli
  • Prony Shear Relaxation | Relaxation Time
  • Prony Volumetric Relaxation | Number of Terms
  • Prony Volumetric Relaxation | Relative Moduli
  • Prony Volumetric Relaxation | Relaxation Time

High Temperature Alloy Data

All temperature-dependent properties:

  • Density
  • Static modulus of elasticity
  • Poisson's ratio
  • 0.2% Yield strength
  • Tensile elongation
  • True stress vs plastic strain

MMPDS

  • Density
  • Elongation, L
  • Modulus, L
  • Poisson's Ratio (L-dir) with Temp.
  • Poisson's Ratio, L
  • Tens. Yield Stress (L-dir) with Temp.
  • Tensile Modulus (L-dir) with Temp.
  • Tensile Stress/Strain, L
  • Yield Strength, L

Sheet Steels

  • 0.2% Yield strength (Transverse, 23°C)
  • Data disclaimer
  • Density
  • Direction-dependent yield stress_00 direction
  • Direction-dependent yield stress_45 direction
  • Direction-dependent yield stress_90 direction
  • Elongation, onset of instability (Transverse, 23°C)
  • Flow potential exponent (Barlat)
  • Forming flow curve
  • Forming limit curve
  • GISSMO material data (Damage exponent; Element deletion threshold; Fading exponent; Failure curve; Instability curve; Reduction factor, biaxial; Reduction factor, shear; Reference element size; Regularization curve, fading exponent; Regularization curve, failure strain)
  • Kinematic hardening parameters (Chaboche-Rousselier)_A1
  • Kinematic hardening parameters (Chaboche-Rousselier)_A2
  • Kinematic hardening parameters (Chaboche-Rousselier)_A3
  • Kinematic hardening parameters (Chaboche-Rousselier)_A4
  • Kinematic hardening parameters (Chaboche-Rousselier)_C1
  • Kinematic hardening parameters (Chaboche-Rousselier)_C2
  • Kinematic hardening parameters (Chaboche-Rousselier)_C3
  • Kinematic hardening parameters (Chaboche-Rousselier)_C4
  • Lankford parameters (R-values)_00 direction
  • Lankford parameters (R-values)_45 direction
  • Lankford parameters (R-values)_90 direction
  • Poisson's ratio
  • Rate-dependent plastic flow curves
  • True stress vs Plastic strain
  • Yield surface parameters_Stress, XX
  • Yield surface parameters_Stress, XY
  • Yield surface parameters_Stress, YY
  • Yield surface parameters_Tangent, XX
  • Yield surface parameters_Tangent, XY
  • Yield surface parameters_Tangent, YY
  • Young's modulus (nominal)
  • Young's modulus vs Plastic strain, Kinematic hardening