International audienceSince its advent in the 1960s, elastoplastic micromechanics has been confronted by continuous challenges, as the classical incremental elastoplastic tangents are known to deliver unrealistically stiff material responses. As a complement to the various " secant " approximations targeting this challenge , we here develop a theoretical framework based on an extension of Dvorak's transformation field analysis, comprising the derivation of concentration and influence tensors. We thereby overcome the problem of actually non-homogeneous stress distributions across finite (often spherical) material phases, through consideration of infinitely many (non-spherical) solid phases oriented in all space directions, arriving at a micr...
In this paper, the cortical bone tissue is considered as a poroelastic material with periodic struct...
International audienceIntroduction of infinitely many solid phases in continuum micromechanical repr...
The application of the linear micropolar theory to the strength analysis of bioceramic materials for...
International audienceSince its advent in the 1960s, elastoplastic micromechanics has been confronte...
A micromechanical analysis of the behavior of saturated elastic porous media is presented. Pores are...
International audienceThis paper is devoted to develop a theoretical framework to predict the macros...
AbstractThis paper presents a numerical technique to predict the effective elastic properties of het...
This paper aims mainly at providing an incremental elastoplastic constitutive model for heterogeneou...
A micromechanics-based elastoplastic constitutive model for porous materials is proposed. With an as...
Elasto-plastic deformations of cohesive-frictional liquid-saturated granular solid materials can be ...
AbstractThe objective of this work is to develop an analytical homogenization method to estimate the...
Conditions for localization of deformation into a planar (shear) band in the incremental response of...
A micromechanics model and a computational homogenization method were developed to examine the macro...
This paper reviews some aspects of the formulation of the constitutive behavior of a saturated porou...
Bone is a complex material showing a hierarchical and porous structure but also a natural ability to...
In this paper, the cortical bone tissue is considered as a poroelastic material with periodic struct...
International audienceIntroduction of infinitely many solid phases in continuum micromechanical repr...
The application of the linear micropolar theory to the strength analysis of bioceramic materials for...
International audienceSince its advent in the 1960s, elastoplastic micromechanics has been confronte...
A micromechanical analysis of the behavior of saturated elastic porous media is presented. Pores are...
International audienceThis paper is devoted to develop a theoretical framework to predict the macros...
AbstractThis paper presents a numerical technique to predict the effective elastic properties of het...
This paper aims mainly at providing an incremental elastoplastic constitutive model for heterogeneou...
A micromechanics-based elastoplastic constitutive model for porous materials is proposed. With an as...
Elasto-plastic deformations of cohesive-frictional liquid-saturated granular solid materials can be ...
AbstractThe objective of this work is to develop an analytical homogenization method to estimate the...
Conditions for localization of deformation into a planar (shear) band in the incremental response of...
A micromechanics model and a computational homogenization method were developed to examine the macro...
This paper reviews some aspects of the formulation of the constitutive behavior of a saturated porou...
Bone is a complex material showing a hierarchical and porous structure but also a natural ability to...
In this paper, the cortical bone tissue is considered as a poroelastic material with periodic struct...
International audienceIntroduction of infinitely many solid phases in continuum micromechanical repr...
The application of the linear micropolar theory to the strength analysis of bioceramic materials for...