The present paper deals with the homogenization problem of periodic composite materials, considering a Cosserat continuum at the macro-level and a Cauchy continuum at the micro-level. Consistently with the strain-driven approach, the two levels are linked by a kinematic map based on a third order polynomial expansion. Because of the assumed regular texture of the composite material, a Unit Cell (UC) is selected; then, the problem of determining the displacement perturbation fields, arising when second or third order polynomial boundary conditions are imposed on the UC, is investigated. A new micro-mechanical approach, based on the decomposition of the perturbation fields in terms of functions which depend on the macroscopic strain...
A procedure for second-order computational homogenization of heterogeneous materials is derived from...
A micropolar-based asymptotic homogenization approach for the anal- ysis of composite materials with...
The primary objective of this dissertation is to develop computational models that describe the over...
The present paper deals with the homogenization problem of periodic composite materials, considering...
In the present paper the homogenization problem of periodic composites is investigated, in the case...
This work presents a contribution to the development of computational homogenization procedures, in ...
Computational homogenization is adopted to assess the homogenized two-dimensional response of period...
We present a micropolar-based asymptotic homogenization approach [1,2] for the analysis of composite...
In the framework of the computational homogenization procedures, the problem of coupling a Cosserat ...
A micropolar-based asymptotic homogenization approach for the analysis of composite materials with p...
International audienceClassical homogenization methods fail to reproduce the overall response of com...
In this paper a second-order homogenization approach for periodic material is derived from an approp...
International audienceA micromechanics-based approach for the derivation of the effective properties...
A heterogeneous Cauchy elastic material may display micromechanical effects that can be modeled in a...
International audienceExtensions of classical homogenization methods are presented that are used to ...
A procedure for second-order computational homogenization of heterogeneous materials is derived from...
A micropolar-based asymptotic homogenization approach for the anal- ysis of composite materials with...
The primary objective of this dissertation is to develop computational models that describe the over...
The present paper deals with the homogenization problem of periodic composite materials, considering...
In the present paper the homogenization problem of periodic composites is investigated, in the case...
This work presents a contribution to the development of computational homogenization procedures, in ...
Computational homogenization is adopted to assess the homogenized two-dimensional response of period...
We present a micropolar-based asymptotic homogenization approach [1,2] for the analysis of composite...
In the framework of the computational homogenization procedures, the problem of coupling a Cosserat ...
A micropolar-based asymptotic homogenization approach for the analysis of composite materials with p...
International audienceClassical homogenization methods fail to reproduce the overall response of com...
In this paper a second-order homogenization approach for periodic material is derived from an approp...
International audienceA micromechanics-based approach for the derivation of the effective properties...
A heterogeneous Cauchy elastic material may display micromechanical effects that can be modeled in a...
International audienceExtensions of classical homogenization methods are presented that are used to ...
A procedure for second-order computational homogenization of heterogeneous materials is derived from...
A micropolar-based asymptotic homogenization approach for the anal- ysis of composite materials with...
The primary objective of this dissertation is to develop computational models that describe the over...