The analysis of the overall mechanical behaviour of heterogeneous materials subject to large deformations is approached in this paper. First the problem of the homogenisation of composite materials made by regular cell assembly and characterised by a representative volume element (RVE) is stated by assuming non linear elastic constituents. The RVE is subjected to an enforced displacement path on its boundary and incremental homogenised moduli, defined in terms of Biot stress, are deduced. Then, micro- and macro-bifurcation criteria on the incremental solution are used to point out the possible unstable configurations of the RVE. Correspondingly, the micro- and macro-failure surfaces of the material are defined inside to the macroscopic stra...
A model has been proposed of the homogenization of a transversally-isotropic composite material, who...
The primary objective of this dissertation is to develop computational models that describe the over...
This article presents the details of a numerical technique for computing the macroscopic response of...
The analysis of the overall mechanical behaviour of heterogeneous materials subject to large deforma...
In this paper, the effectiveness of homogenization techniques for media with micro-structure subject...
AbstractAn analysis of the effects of microscopic instabilities on the homogenized response of heter...
Heterogeneous materials are used more and more frequent due to their enhanced mechanical properties....
Heterogeneous materials have been used extensively in the past few decades, since their mechanical p...
International audienceThe periodic homogenisation method is often used to study the behaviour of het...
Heterogeneous materials are used more and more due to their enhanced mechanical properties. If the r...
International audienceExtensions of classical homogenization methods are presented that are used to ...
This paper deals with homogenization of heterogeneous, fibre-reinforced material. One of the main po...
An accurate homogenization method that accounts for large deformations and viscoelastic material beh...
In modern engineering, composite materials gained importance because of their specific properties re...
A model has been proposed of the homogenization of a transversally-isotropic composite material, who...
The primary objective of this dissertation is to develop computational models that describe the over...
This article presents the details of a numerical technique for computing the macroscopic response of...
The analysis of the overall mechanical behaviour of heterogeneous materials subject to large deforma...
In this paper, the effectiveness of homogenization techniques for media with micro-structure subject...
AbstractAn analysis of the effects of microscopic instabilities on the homogenized response of heter...
Heterogeneous materials are used more and more frequent due to their enhanced mechanical properties....
Heterogeneous materials have been used extensively in the past few decades, since their mechanical p...
International audienceThe periodic homogenisation method is often used to study the behaviour of het...
Heterogeneous materials are used more and more due to their enhanced mechanical properties. If the r...
International audienceExtensions of classical homogenization methods are presented that are used to ...
This paper deals with homogenization of heterogeneous, fibre-reinforced material. One of the main po...
An accurate homogenization method that accounts for large deformations and viscoelastic material beh...
In modern engineering, composite materials gained importance because of their specific properties re...
A model has been proposed of the homogenization of a transversally-isotropic composite material, who...
The primary objective of this dissertation is to develop computational models that describe the over...
This article presents the details of a numerical technique for computing the macroscopic response of...