International audienceFEM results of softening materials are well known to show pathological mesh dependency. The main goal of this work is to revisit and propose efficient nonlocal damage gradient enhanced formulations able to avoid mesh dependency in the context of elastoplastic damage models with destination to industrial applications. This formulation is presented and studied for simple tension tests, with various spatial discretizations. Numerical aspects and implementation in ABAQUS-standard environment are discussed. The structure of the nonlocal element needed for those formulations is presented. For a given set of meshes, the ability of the proposed formulation to control the size of the necking zone is studied. In the same time th...
A new non-local damage model is presented. Non-locality (of integral or gradient type) is incorporat...
A non-local gradient-enhanced damage-plasticity formulation is proposed, which prevents the loss of ...
Continuum damage models describe the changes of material stiffness and strength, caused by the evolu...
An improved gradient-enhanced approach for softening elasto-plasticity is proposed, which in essence...
AbstractThe issue of mesh-dependence emerges when the conventional continuum damage model is applied...
ABSTRACT: Solving finite element problems involving elasto-plasticity coupled with damage softening ...
International audienceThis paper presents a ductile damage-gradient based nonlocal and fully coupled...
The constitutive modelling of distributed damage evolution with strain-softening effects causes seri...
The microstructure of a typical material contains a large number of microdefects which are small and...
The thermodynamically consistent formulation and the subsequent numerical implementation of a gradie...
International audienceSolving finite element problems involving elasto-plasticity coupled with damag...
Continuous models of material degradation may cease to producemeaningful results in the presence of ...
This paper presents a simple damage-gradient based elastoplastic model with non linear isotropic har...
The strain softening behavior due to the development of damage is well known to produce unrealistic ...
This paper presents a gradient plasticity formulation developed in a strongly non-local format and a...
A new non-local damage model is presented. Non-locality (of integral or gradient type) is incorporat...
A non-local gradient-enhanced damage-plasticity formulation is proposed, which prevents the loss of ...
Continuum damage models describe the changes of material stiffness and strength, caused by the evolu...
An improved gradient-enhanced approach for softening elasto-plasticity is proposed, which in essence...
AbstractThe issue of mesh-dependence emerges when the conventional continuum damage model is applied...
ABSTRACT: Solving finite element problems involving elasto-plasticity coupled with damage softening ...
International audienceThis paper presents a ductile damage-gradient based nonlocal and fully coupled...
The constitutive modelling of distributed damage evolution with strain-softening effects causes seri...
The microstructure of a typical material contains a large number of microdefects which are small and...
The thermodynamically consistent formulation and the subsequent numerical implementation of a gradie...
International audienceSolving finite element problems involving elasto-plasticity coupled with damag...
Continuous models of material degradation may cease to producemeaningful results in the presence of ...
This paper presents a simple damage-gradient based elastoplastic model with non linear isotropic har...
The strain softening behavior due to the development of damage is well known to produce unrealistic ...
This paper presents a gradient plasticity formulation developed in a strongly non-local format and a...
A new non-local damage model is presented. Non-locality (of integral or gradient type) is incorporat...
A non-local gradient-enhanced damage-plasticity formulation is proposed, which prevents the loss of ...
Continuum damage models describe the changes of material stiffness and strength, caused by the evolu...