Simulation Materials
What's New
R2022x FD01 (FP.2205)
Related Guides and Resources
Structures
General Properties
Density
Parameters
Proof (Yield) Stress
Ultimate Strength
Elongation
Abaqus Multiphysics
Mechanical Properties
Elasticity Properties
Elasticity
Introduction to Linear Elasticity
Anisotropic Elasticity
Parameters
Orthotropic Elasticity Based on Engineering Constants
Parameters
Isotropic Elasticity
Parameters
Lamina Elasticity
Parameters
Linear Elastic Response for Viscoelastic Materials
Parameters
No Compression or No Tension
Parameters
Orthotropic Elasticity
Parameters
Isotropic Shear Elasticity
Parameters
Transversely Isotropic Elasticity
Parameters
Hyperelastic Mechanical Properties
Isotropic Hyperelasticity
Overview of Strain Energy Potentials
Arruda-Boyce
Neo-Hooke
Ogden
Polynomial
Reduced Polynomial
Mooney Rivlin
Van der Waals
Yeoh
Marlow
User
Uniaxial Test Data Options for Marlow Hyperelasticity
Volumetric Test Data Options for Marlow Hyperelasticity
Anisotropic Hyperelasticity
Overview of Strain Energy Potentials
Generalized Fung form
Holzapfel-Glasser-Ogden Potential
User-defined Form
Definition of Preferred Material Directions
Hyperfoam
Mullins Effect
Mullins Effect
Low-Density Foam
Uniaxial Tension and Compression Data
Additional Low Density Foam data
Porous Elasticity
Porous Elasticity
Hypoelasticity
Hypoelasticity
Plasticity Properties
Metal Plasticity Options
About Plasticity
Yield Surfaces
Hardening
Rate Dependence
Plastic Options
Isotropic Plasticity
Kinematic Plasticity
Combined Plasticity
User-defined Hardening
Potential Options
Rate-Dependent Hardening Options
Power Law
Yield Ratio
Johnson-Cook
Chaboche
Tensile Failure Options
Anneal Temperature
Cast Iron Plasticity
Cast Iron Plasticity
Compression Hardening
Tension Hardening
Porous Metal Plasticity
Porous Metal Plasticity
Void Nucleation
Porous Failure Criteria
Rock and Soil Plasticity Options
Extended Drucker-Prager
Parameters for the Linear Shear Criterion
Parameters for the Hyperbolic Shear Criterion
Parameters for the Exponent Form Shear Criterion
Drucker-Prager Hardening
Drucker-Prager Creep
Mohr-Coulomb
Mohr-Coulomb Hardening
Tension Cutoff
Cap Plasticity (Modified Drucker-Prager)
Cap Plasticity
Cap Hardening
Cap Creep
Soft Rock Plasticity
Clay Tabular Plasticity
Clay Tabular Plasticity
Clay Hardening
Clay Yield Potential Options
Softening Regularization
Clay Exponential Plasticity
Clay Exponential Plasticity
Concrete Plasticity Options
Concrete Damaged Plasticity
Concrete Tension Stiffening
Concrete Compression Hardening
Concrete Tension Damage
Concrete Compression Damage
Concrete Failure
Brittle Cracking
Brittle Cracking
Brittle Shear
Brittle Failure
Crushable Foam
Crushable Foam Plasticity
Crushable Foam Hardening
Deformation Plasticity
Nitinol (Superelasticity)
Superelasticity
Superelastic Hardening
Superelastic Hardening Modifications
Viscoelasticity, Creep, and Swelling Properties
Viscoelasticity
Formula (Frequency domain)
Prony (Frequency domain)
Tabular (Frequency domain)
Prony (Time domain)
Frequency Data (Time domain)
Nonlinear Viscoelasticity
Parallel rheological framework
Elastic Behavior
Viscous Behavior
Creep Laws for Nonlinear Viscoelasticity
Number of Viscoelastic Networks
Parameters
Thermorheologically Simple Temperature Effects
Williams-Landel-Ferry (WLF) Form
Arrhenius form
Creep
About Creep and Creep Models
Introduction to Creep Behavior
Creep Models
Modeling Simultaneous Creep and Plasticity
Hyperbolic-Sine Model
Anand Model
Darveaux Model
Double Power Model
User-Defined Creep Model
Power Law Model
Time Power Law Model
Viscous Behavior
Introduction to the Two-layer Viscoplasticity Model
Material Behavior
Volumetric Creep Swelling
Isotropic
Anisotropic
Damage Properties
Ductile Metals
Ductile Damage
FLD Damage
FLSD Damage
Johnson-Cook Damage
M-K Damage
Shear Damage
MSFLD Damage
Fiber-Reinforced Composites
Hashin Damage
Fail Strain
Fail Stress
Damage Evolution
Background
Main Options
Damage Stabilization Options
Damping
User-Defined Material Behaviors
User-Defined Material Properties
Dependent Variable
Hydrodynamic Properties
EOS (Equation of State)
Summary
Ideal Gas
JWL
Ignition and growth
Us - Up
Tabular
Plastic compaction
User
Viscosity Options
Newtonian
Carreau Yasuda
Cross
Ellis Meter
Herschel Bulkley
Powell Eyring
Power Law
Tabular
Sutherland's Law
Fiber Reinforcement
Mean-Field Homogenization
Mori-Tanaka (MT)
Voigt and Reuss Models
Inverse Mori-Tanaka (Inverse MT)
Balanced Model
Isotropization
Including Fiber Direction
Gasket Properties
Gasket Thickness Behavior
Gasket Transverse Shear Elastic
Gasket Membrane Elastic
Thermal Properties
Conductivity
Isotropic
Orthotropic
Anisotropic
Latent Heat
Specific Heat
Electrical: Electric Conductivity
Isotropic
Orthotropic
Anisotropic
Porous Media Options
Pore Fluid Density
Porous Bulk Moduli
Porous Media Permeability
Wetting Liquid Specific Weight
Permeability Types
Isotropic
Orthotropic
Anisotropic
Permeability Saturation Dependence
Permeability Velocity based on Forchheimer's Law
Porous Media Sorption
Logarithmic
Tabular
Porous Media Swelling
Isotropic
Anisotropic
Porous Media Gel Growth
Pore Fluid Density
Pore Fluid Conductivity
Pore Fluid Specific Heat
Pore Fluid Latent Heat
Smooth Latent Heat Transition
Acoustic Properties
Bulk Modulus
Volumetric Drag
Acoustic Absorption
Fluid Cavity
Hydraulic Fluid Properties
Fluid Density
Parameters
Fluid Bulk Modulus
Parameters
Fluid Expansion
Parameters
Pneumatic Fluid Properties
Molar Heat Capacity
Parameters for Polynomial Definition
Parameters for Tabular Definition
Molecular Weight
Parameters
User-Defined Fluid
Multiphysics Coupling Properties
Thermal Mechanical Properties
Expansion
Thermal Expansion
Inelastic Heat Fraction
Inelastic Heat Fraction
Electrical Thermal Mechanical: Joule Heat Fraction
Joule Heat Fraction
Electrical Mechanical (MEMS) Properties
Piezoelectricity
Piezoelectric
Dielectric
Dielectric
fe-safe Durability Properties
Cast Iron Fatigue
Cyclic Stress-Strain
Endurance Limit
Fatigue Algorithm
About Fatigue Algorithms
Brown-Miller
Normal Strain
Cast Iron
Maximum Shear Strain
Normal Stress
von Mises
Manson McKnight Octahedral
Uniaxial Strain Life
Uniaxial Stress Life
Specifying the Fatigue Algorithm for a Material
Define a Finite Life Fatigue Algorithm
Define an Infinite Life Fatigue Algorithm
FKM Material
Strain Life
Stress Life
Walker Correction
Weibull
Weld Fatigue
Electromagnetics
Surface Model
Volume Model
Electric Properties
Electric Dispersion
Isotropic
Orthotropic
Electric Losses
Isotropic
Orthotropic
Electric Permittivity
Isotropic
Orthotropic
Magnetic Properties
Magnetic Dispersion
Isotropic
Orthotropic
Magnetic Losses
Magnetic Permeability
Isotropic Magnetic Permeability with Constant Mu Values
Orthotropic Magnetic Permeability with Constant Mu Values
Permeability of Soft Magnetic Materials
Permeability of Hard Magnetic Materials
Fluid Dynamics
Navier-Stokes: Fluid Options
Diffusivity
Isotropic
Orthotropic
Anisotropic
Saturation Pressure
Surface Tension
Navier-Stokes: Thermal Options
Navier-Stokes: Electric Conductivity
Injection Molding
Characteristic Temperature
Fiber Reinforcement (Plastic Injection)
Melt Flow Rate
Plastic Viscosity
Cross Model + Arrhenius
Cross Model + WLF
Campus Carreau + WLF
Macosko Model
Pressure, Temperature, and Volume (PVT)
Constant Density
Modified Tait
Spencer Gilmore
Curing Model
Metal Particle
Dependence on Temperature and Independent Field Variables
About Material Data as a Function of Independent Field Variables
Specifying Material Data as a Function of Temperature and Independent Field Variables
Specify Material Data as a Function of Temperature
Specify Material Data as a Function of Independent Field Variables
Importing Sets of Materials from a Material Briefcase
Installing and Importing Materials from a Material Briefcase
Install a Material Briefcase
Import the Material Briefcase into the Database
Material Briefcases Available for Import
Contents of Briefcases Available for Import
About the Material Data in DS-Engineering.3dxml