Add to ORKGInternational audienceIt is well known that the use of inelastic constitutive equations accounting for induced softening leads to pathological space (mesh) and time discretization dependency of the numerical solution of the Initial and Boundary value Problem (IBVP). To solve this drawback a thermodynamically-consistent formulation incorporating first gradient of micromorphic damage in the framework of micromorphic continuum is proposed. In this formulation the damage field is strongly coupled with mixed isotropic and kinematic nonlinear hardening together with micromorphic damage variables. A new finite element with one additional degree of freedom for the micromorphic damage field is developed and implemented into ABAQUS/EXPLICIT using the...
International audienceQuasi-brittle materials are often modeled using strain-softening continuum dam...
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 audienceIt is well established that the use of inelastic constitutive equations accoun...
International audienceA thermodynamically-consistent micromorphic constitutive model fully coupled w...
AbstractIt is well established that the use of inelastic constitutive equations accounting for induc...
This paper presents a simple damage-gradient based elastoplastic model with non linear isotropic har...
International audienceIn this paper, the nonlocal anisothermal elasto-visco-plastic constitutive equ...
International audienceA unifying thermomechanical framework is presented that reconciles several cla...
The aim of this work is to extend an isotropic elastoplastic damage concept for ductile materials wi...
ABSTRACT: The numerical implementation of a gradient-enhanced continuum coupled damage–plasticity mo...
A non-local gradient-based damage formulation within a geometrically non-linear setting is presented...
International audienceThis paper presents a ductile damage-gradient based nonlocal and fully coupled...
International audienceThe micromorphic constitutive model developed in previous works and accounting...
A unifying thermomechanical framework is presented that reconciles several classes of gradient elast...
International audienceQuasi-brittle materials are often modeled using strain-softening continuum dam...
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 audienceIt is well established that the use of inelastic constitutive equations accoun...
International audienceA thermodynamically-consistent micromorphic constitutive model fully coupled w...
AbstractIt is well established that the use of inelastic constitutive equations accounting for induc...
This paper presents a simple damage-gradient based elastoplastic model with non linear isotropic har...
International audienceIn this paper, the nonlocal anisothermal elasto-visco-plastic constitutive equ...
International audienceA unifying thermomechanical framework is presented that reconciles several cla...
The aim of this work is to extend an isotropic elastoplastic damage concept for ductile materials wi...
ABSTRACT: The numerical implementation of a gradient-enhanced continuum coupled damage–plasticity mo...
A non-local gradient-based damage formulation within a geometrically non-linear setting is presented...
International audienceThis paper presents a ductile damage-gradient based nonlocal and fully coupled...
International audienceThe micromorphic constitutive model developed in previous works and accounting...
A unifying thermomechanical framework is presented that reconciles several classes of gradient elast...
International audienceQuasi-brittle materials are often modeled using strain-softening continuum dam...
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...