AbstractAn analysis of the effects of microscopic instabilities on the homogenized response of heterogeneous solids with periodic microstructure and incrementally linear constitutive law is here carried out. In order to investigate the possibility to obtain a conservative prediction of microscopic primary instability in terms of homogenized properties, novel macroscopic constitutive stability measures are introduced, corresponding to the positive definiteness of the homogenized moduli tensors relative to a class of conjugate stress–strain pairs.Numerical simulations, addressed to hyperelastic microstructural models representing cellular solids and reinforced composites, are worked out through the implementation of an innovative one-way coup...
International audienceThe present work is a detailed study of the connections between microstructura...
In this work, we carry out a thorough investigation of microscopic instabilities—including short-wav...
An extension of a recently-developed linear thermoelastic theory for multiphase periodic materials i...
AbstractAn analysis of the effects of microscopic instabilities on the homogenized response of heter...
A new homogenization theory to model the mechanical response of hyperelastic solids reinforced by a ...
The analysis of the overall mechanical behaviour of heterogeneous materials subject to large deforma...
AbstractThe numerical analysis of engineering structures is usually based upon the assumptions of a ...
In this paper, the effectiveness of homogenization techniques for media with micro-structure subject...
In this paper a simple way to describe the eects of microscopic damage on the global behaviour of pe...
International audienceClassical homogenization methods fail to reproduce the overall response of com...
Computational homogenization is adopted to assess the homogenized two-dimensional response of period...
Elastomeric composites are currently used in numerous commercial applications and have shown great p...
International audienceA micromechanics-based approach for the derivation of the effective properties...
The combination of thermal and mechanical loading expected in practice means that constitutive equat...
In previous publications, strain-energy functions with limiters have been introduced for the predict...
International audienceThe present work is a detailed study of the connections between microstructura...
In this work, we carry out a thorough investigation of microscopic instabilities—including short-wav...
An extension of a recently-developed linear thermoelastic theory for multiphase periodic materials i...
AbstractAn analysis of the effects of microscopic instabilities on the homogenized response of heter...
A new homogenization theory to model the mechanical response of hyperelastic solids reinforced by a ...
The analysis of the overall mechanical behaviour of heterogeneous materials subject to large deforma...
AbstractThe numerical analysis of engineering structures is usually based upon the assumptions of a ...
In this paper, the effectiveness of homogenization techniques for media with micro-structure subject...
In this paper a simple way to describe the eects of microscopic damage on the global behaviour of pe...
International audienceClassical homogenization methods fail to reproduce the overall response of com...
Computational homogenization is adopted to assess the homogenized two-dimensional response of period...
Elastomeric composites are currently used in numerous commercial applications and have shown great p...
International audienceA micromechanics-based approach for the derivation of the effective properties...
The combination of thermal and mechanical loading expected in practice means that constitutive equat...
In previous publications, strain-energy functions with limiters have been introduced for the predict...
International audienceThe present work is a detailed study of the connections between microstructura...
In this work, we carry out a thorough investigation of microscopic instabilities—including short-wav...
An extension of a recently-developed linear thermoelastic theory for multiphase periodic materials i...