Add to ORKGA phenomenological model for deformation induced evolution of anisotropy at large strains in pearlitic steel is proposed. The modeled anisotropy is based on a homogenization of an ideal pearlitic microstructure. An areal affine type of reorientation is assumed for the individual grains. Furthermore, a yield criterion of the Hill type is proposed and motivated from the grain reorientation. In each pearlitic grain the cementite lamellas have a privileged direction. The symmetry group of each individual grain is therefore considered transversally isotropic. In a virgin material, the privileged directions of the different grains are randomly oriented, which allows for the interpretation that the material on the macroscopic length scale is initi...
Thermodynamically consistent constitutive material models for describing the large strain response o...
Thermodynamically consistent constitutive material models for describing the large strain response o...
In this paper different homogenization approaches are adopted for two micromechanical based models o...
A phenomenological model for deformation induced evolution of anisotropy at large strains in pearlit...
A macroscopic model for deformation induced anisotropy due to substructure evolution at large strain...
A macroscopic model for deformation induced anisotropy due to substructure evolution at large strain...
In a pearlitic structure, large deformations lead to a re-orientation and alignment of cementite lam...
In this contribution, different types of homogenization methods of a micromechanically based plastic...
In this contribution, different types of homogenization methods of a micromechanically based plastic...
Large shearing and/or stretching of pearlitic steel leads to a re-orientation and alignment of cemen...
Large shearing and/or stretching of pearlitic steel leads to a re-orientation and alignment of cemen...
A micromechanically based plasticity model for modeling of anisotropy in pearlitic steel is investig...
A micromechanically based plasticity model for modeling of anisotropy in pearlitic steel is investig...
Simulated evolution of anisotropy by reorientation of cementite lamellae in pearlitic steel is compa...
Simulated evolution of anisotropy by reorientation of cementite lamellae in pearlitic steel is compa...
Thermodynamically consistent constitutive material models for describing the large strain response o...
Thermodynamically consistent constitutive material models for describing the large strain response o...
In this paper different homogenization approaches are adopted for two micromechanical based models o...
A phenomenological model for deformation induced evolution of anisotropy at large strains in pearlit...
A macroscopic model for deformation induced anisotropy due to substructure evolution at large strain...
A macroscopic model for deformation induced anisotropy due to substructure evolution at large strain...
In a pearlitic structure, large deformations lead to a re-orientation and alignment of cementite lam...
In this contribution, different types of homogenization methods of a micromechanically based plastic...
In this contribution, different types of homogenization methods of a micromechanically based plastic...
Large shearing and/or stretching of pearlitic steel leads to a re-orientation and alignment of cemen...
Large shearing and/or stretching of pearlitic steel leads to a re-orientation and alignment of cemen...
A micromechanically based plasticity model for modeling of anisotropy in pearlitic steel is investig...
A micromechanically based plasticity model for modeling of anisotropy in pearlitic steel is investig...
Simulated evolution of anisotropy by reorientation of cementite lamellae in pearlitic steel is compa...
Simulated evolution of anisotropy by reorientation of cementite lamellae in pearlitic steel is compa...
Thermodynamically consistent constitutive material models for describing the large strain response o...
Thermodynamically consistent constitutive material models for describing the large strain response o...
In this paper different homogenization approaches are adopted for two micromechanical based models o...