Add to ORKGInternational audienceDuctile damage is generally described by stress-space analytical potentials. In this contribution, it is shown that strain rate potentials, which are exact conjugate of the stress-based potentials, can be equally used to describe the dilatational response of porous metals. This framework is particularly appropriate for porous materials with matrix described by complex yield criteria for which a closed-form expression of the stress-based potential is not available. Illustration of the new approach is done for porous metals containing randomly distributed spherical voids in a von Mises elasto-plastic matrix. Furthermore, a general time integration algorithm for simulation of the mechanical response using this new formula...
Ductile fracture in metals can involve the generation of considerable porosity caused by nucleation,...
This paper deals with a viscoplastic potential-based model allowing thermomechanical damage behavior...
A theory is developed for the response of moderately porous solids (no more than {approximately}20% ...
Modeling of ductile damage is generally done using analytical potentials, which are expressed in the...
AbstractAt present, modeling of the plastic response of porous solids is done using stress-based pla...
An elasto-plastic constitutive model for porous materials is formulated within the thermodynamic fra...
In the Gurson model, the derivation of a yield function employs the hypothesis of plasticity in matr...
Ductile fracture in metals can involve the generation of considerable porosity caused by nucleation,...
In this paper, the classical Gurson model for ductile porous media is extended for strain-rate-depen...
Plasticity induced damage evolution is considered using a thermodynamical approach. Different postul...
A constitutive model for ductile porous material is formulated within the thermodynamic framework. A...
A macroscopic yield criterion for porous solids with pressure-sensitive matrices modelled by Coulomb...
This paper summarizes the work we conducted in recent years on modeling plastic response of metallic...
International audienceIn this paper, a new plastic potential for porous solids with von Mises perfec...
International audienceThe effective material response of ductile metals containing spherical pores a...
Ductile fracture in metals can involve the generation of considerable porosity caused by nucleation,...
This paper deals with a viscoplastic potential-based model allowing thermomechanical damage behavior...
A theory is developed for the response of moderately porous solids (no more than {approximately}20% ...
Modeling of ductile damage is generally done using analytical potentials, which are expressed in the...
AbstractAt present, modeling of the plastic response of porous solids is done using stress-based pla...
An elasto-plastic constitutive model for porous materials is formulated within the thermodynamic fra...
In the Gurson model, the derivation of a yield function employs the hypothesis of plasticity in matr...
Ductile fracture in metals can involve the generation of considerable porosity caused by nucleation,...
In this paper, the classical Gurson model for ductile porous media is extended for strain-rate-depen...
Plasticity induced damage evolution is considered using a thermodynamical approach. Different postul...
A constitutive model for ductile porous material is formulated within the thermodynamic framework. A...
A macroscopic yield criterion for porous solids with pressure-sensitive matrices modelled by Coulomb...
This paper summarizes the work we conducted in recent years on modeling plastic response of metallic...
International audienceIn this paper, a new plastic potential for porous solids with von Mises perfec...
International audienceThe effective material response of ductile metals containing spherical pores a...
Ductile fracture in metals can involve the generation of considerable porosity caused by nucleation,...
This paper deals with a viscoplastic potential-based model allowing thermomechanical damage behavior...
A theory is developed for the response of moderately porous solids (no more than {approximately}20% ...