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Abaqus is designed to handle a wide range of nonlinear material behavior, such as plasticity, creep, and damage. Here are some of the ways that Abaqus can handle nonlinear material behavior:

  • Elastic-Plastic material models: One of the key features of Abaqus is its ability to simulate plasticity, which is a common type of nonlinear material behavior in metals. Abaqus offers a range of plasticity models, including isotropic hardening, kinematic hardening, and combined hardening models. These models can simulate the plastic deformation of materials under different loading conditions, including monotonic and cyclic loading.
  • Viscoelastic materials: Abaqus also offers a range of viscoelastic material models, which can simulate the time-dependent behavior of materials under sustained loading. These models can be used to simulate the behavior of materials such as polymers and composites, which exhibit significant viscoelastic behavior.
  • Hyperelastic material: In addition, Abaqus can simulate hyperelastic materials, which are materials that exhibit large elastic deformation under loading. Abaqus offers a range of hyperelastic material models, including the popular Mooney-Rivlin, Ogden, and Arruda-Boyce models.
  • Damage material model: This model is used for materials that undergo progressive damage under load. The material behavior is described by a degradation function that reduces the stiffness of the material as damage accumulates.
  • Fracture material model: This model is used for materials that exhibit brittle fracture under load. The material behavior is described by a failure criterion that predicts the onset and propagation of cracks.
  • User-defined Subroutines: Abaqus allows users to define their own material models or modify existing ones using user-defined subroutines. This gives users the flexibility to model complex and unique material behavior that may not be captured by the built-in material models. In Abaqus, material models are specified using material property definitions, which can be defined using a combination of analytical equations, experimental data, and user-defined input parameters. These material models are then used to define the constitutive behavior of the material in the finite element model.

Overall, Abaqus uses advanced material models to accurately simulate the nonlinear behavior of materials, allowing users to predict and analyze the mechanical behavior of complex structures and materials under a wide range of loading conditions.

Also, you can find more info via this link: https://help.3ds.com/2022/english/dssimulia_established/SIMACAEMATRefMap/simamat-c-matmodels.htm?contextscope=all&id=fb42db04ecfd4c998b77bfcc27f3c9f0

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