Add to ORKGDifferent models of finite strain plasticity with a nonlinear kinematic hardening are analyzed in a systematic way. All the models are based on a certain formulation of a rate-independent Maxwell fluid, which is used to render the evolution of backstresses. The properties of each material model are determined by the underlying formulation of the Maxwell fluid. The analyzed approaches include the multiplicative hyperelastoplasticity, additive hypoelasto-plasticity and the use of generalized strain measures. The models are compared with respect to different classification criteria, such as the objectivity, thermodynamic consistency, pure volumetric-isochoric split, shear stress oscillation, exact integrability, and w-invariance
AbstractAccording to the experimental observation made by Phillips and Lee in 1979, the direction of...
This paper aims to present a comprehensive guideline for the implementation of Chaboche's plasticity...
AbstractA nonlinear hardening rule that describes a general yield surface change for frame members i...
Different models of finite strain plasticity with a nonlinear kinematic hardening are analyzed in a sy...
In this work a comparative analysis is presented between the linear and the nonlinear kinematic hard...
AbstractWithin the framework of linear plasticity, based on additive decomposition of the linear str...
In this work we compare two frameworks for thermodynamically consistent hyperelasto-plasticity with ...
In this work we compare two frameworks for thermodynamically consistent hyperelasto-plasticity with ...
An elasto-plasticity model with coupled hardening variables of strain type is presented. In the theo...
A finite strain hyper elasto-plastic constitutive model capable to describe non-linear kinematic har...
AbstractThe thermomechanical coupling in finite strain plasticity theory with non-linear kinematic h...
This work addresses the computational aspect of a model for ductile damage at finite strains. Elasto...
We prove the wellposedness, with respect to the maximum norm, of stress-strain laws of nonlinear kin...
According to the experimental observation made by Phillips and Lee in 1979, the direction of the mov...
In this work, we derive a stress algorithm for a non-linear kinematic hardening model. The algorithm...
AbstractAccording to the experimental observation made by Phillips and Lee in 1979, the direction of...
This paper aims to present a comprehensive guideline for the implementation of Chaboche's plasticity...
AbstractA nonlinear hardening rule that describes a general yield surface change for frame members i...
Different models of finite strain plasticity with a nonlinear kinematic hardening are analyzed in a sy...
In this work a comparative analysis is presented between the linear and the nonlinear kinematic hard...
AbstractWithin the framework of linear plasticity, based on additive decomposition of the linear str...
In this work we compare two frameworks for thermodynamically consistent hyperelasto-plasticity with ...
In this work we compare two frameworks for thermodynamically consistent hyperelasto-plasticity with ...
An elasto-plasticity model with coupled hardening variables of strain type is presented. In the theo...
A finite strain hyper elasto-plastic constitutive model capable to describe non-linear kinematic har...
AbstractThe thermomechanical coupling in finite strain plasticity theory with non-linear kinematic h...
This work addresses the computational aspect of a model for ductile damage at finite strains. Elasto...
We prove the wellposedness, with respect to the maximum norm, of stress-strain laws of nonlinear kin...
According to the experimental observation made by Phillips and Lee in 1979, the direction of the mov...
In this work, we derive a stress algorithm for a non-linear kinematic hardening model. The algorithm...
AbstractAccording to the experimental observation made by Phillips and Lee in 1979, the direction of...
This paper aims to present a comprehensive guideline for the implementation of Chaboche's plasticity...
AbstractA nonlinear hardening rule that describes a general yield surface change for frame members i...