Add to ORKGAn elasto-plasticity model with coupled hardening variables of strain type is presented. In the theoretical framework of generalized associativity, the formulation of this model is based on the introduction of two hardening variables with a coupled evolution. Even if the corresponding hardening rules are linear, the stress-strain hardening evolution is non-linear. The numerical implementation by a standard return mapping algorithm is discussed and some numerical simulations of cyclic behaviour in the univariate case are presented
This paper aims to present a comprehensive guideline for the implementation of Chaboche's plasticity...
In this work we compare two frameworks for thermodynamically consistent hyperelasto-plasticity with ...
The algorithm proposed by Aravas to integrate a special type of elastic-plastic constitutive equatio...
An elasto-plasticity model with coupled hardening variables of strain type is presented. In the theo...
In this work a comparative analysis is presented between the linear and the nonlinear kinematic hard...
International audienceThis paper describes a general method for deriving the plastic corrections and...
AbstractThe thermomechanical coupling in finite strain plasticity theory with non-linear kinematic h...
AbstractA simple way to define the flow rules of plasticity models is the assumption of generalized ...
In this work, we derive a stress algorithm for a non-linear kinematic hardening model. The algorithm...
Different models of finite strain plasticity with a nonlinear kinematic hardening are analyzed in a sy...
AbstractAccording to the experimental observation made by Phillips and Lee in 1979, the direction of...
According to the experimental observation made by Phillips and Lee in 1979, the direction of the mov...
© Springer-Verlag Berlin Heidelberg 2016.In this work, an extended theory of plasticity with general...
A kinematic hardening model applicable to finite strains is presented. The kinematic hardening conce...
The Armstrong-Frederick and Chaboche models were generalized in the framework of non-linear kinemati...
This paper aims to present a comprehensive guideline for the implementation of Chaboche's plasticity...
In this work we compare two frameworks for thermodynamically consistent hyperelasto-plasticity with ...
The algorithm proposed by Aravas to integrate a special type of elastic-plastic constitutive equatio...
An elasto-plasticity model with coupled hardening variables of strain type is presented. In the theo...
In this work a comparative analysis is presented between the linear and the nonlinear kinematic hard...
International audienceThis paper describes a general method for deriving the plastic corrections and...
AbstractThe thermomechanical coupling in finite strain plasticity theory with non-linear kinematic h...
AbstractA simple way to define the flow rules of plasticity models is the assumption of generalized ...
In this work, we derive a stress algorithm for a non-linear kinematic hardening model. The algorithm...
Different models of finite strain plasticity with a nonlinear kinematic hardening are analyzed in a sy...
AbstractAccording to the experimental observation made by Phillips and Lee in 1979, the direction of...
According to the experimental observation made by Phillips and Lee in 1979, the direction of the mov...
© Springer-Verlag Berlin Heidelberg 2016.In this work, an extended theory of plasticity with general...
A kinematic hardening model applicable to finite strains is presented. The kinematic hardening conce...
The Armstrong-Frederick and Chaboche models were generalized in the framework of non-linear kinemati...
This paper aims to present a comprehensive guideline for the implementation of Chaboche's plasticity...
In this work we compare two frameworks for thermodynamically consistent hyperelasto-plasticity with ...
The algorithm proposed by Aravas to integrate a special type of elastic-plastic constitutive equatio...