We present explicit upper bound estimates of the microstructural length used in simple gradient elasticity. Our model is a two dimensional composite made of circular hard inclusions randomly dispersed in a soft matrix. Both inclusions and matrix are described by isotropic linear elastic constitutive laws. The composite, however, is described by an isotropic gradient elastic law. The elastic modulus and the Poisson's ratio are given by the exact classic analysis of Christensen. The in-plane microstructural length is estimated by energy optimization, based on solutions of the gradient elastic hollow cylinder. It was shown that the microstructural length decreases with the composition of the particles, taking high values at low particle compos...
Classical homogenization techniques are known to be effective for materials with large scale separat...
International audienceA micromechanics-based approach for the derivation of the effective properties...
AbstractA micromechanics-based approach for the derivation of the effective properties of periodic l...
International audienceThe stress-gradient model was introduced by Forest and Sab(Mech. Res. Comm. 40...
Classical effective descriptions of heterogeneous materials fail to capture the influence of the spa...
International audienceA stress-gradient material model was recently proposed by Forest and Sab [Mech...
Classical effective descriptions of heterogeneous materials fail to capture the influ-ence of the sp...
L'objectif principal du travail réalisé au cours de la thèse consistera à proposer une démarche théo...
Strain gradient theory is an accurate model for capturing the size effect and localization phenomena...
Through a second-order homogenization procedure, the explicit relation is obtained between the non-l...
This article is devoted to the optimal design of the microstructure in composite materials, which ar...
A gradient-enhanced computational homogenization procedure, that allows for the modelling of microst...
Cauchy continuum theory is unable to account for the absolute size of microstructure of materials. T...
International audienceIn this paper we deal with the determination of the strain gradient elasticity...
International audienceA computational homogenization method to determine the effective parameters of...
Classical homogenization techniques are known to be effective for materials with large scale separat...
International audienceA micromechanics-based approach for the derivation of the effective properties...
AbstractA micromechanics-based approach for the derivation of the effective properties of periodic l...
International audienceThe stress-gradient model was introduced by Forest and Sab(Mech. Res. Comm. 40...
Classical effective descriptions of heterogeneous materials fail to capture the influence of the spa...
International audienceA stress-gradient material model was recently proposed by Forest and Sab [Mech...
Classical effective descriptions of heterogeneous materials fail to capture the influ-ence of the sp...
L'objectif principal du travail réalisé au cours de la thèse consistera à proposer une démarche théo...
Strain gradient theory is an accurate model for capturing the size effect and localization phenomena...
Through a second-order homogenization procedure, the explicit relation is obtained between the non-l...
This article is devoted to the optimal design of the microstructure in composite materials, which ar...
A gradient-enhanced computational homogenization procedure, that allows for the modelling of microst...
Cauchy continuum theory is unable to account for the absolute size of microstructure of materials. T...
International audienceIn this paper we deal with the determination of the strain gradient elasticity...
International audienceA computational homogenization method to determine the effective parameters of...
Classical homogenization techniques are known to be effective for materials with large scale separat...
International audienceA micromechanics-based approach for the derivation of the effective properties...
AbstractA micromechanics-based approach for the derivation of the effective properties of periodic l...