International audienceThe current paper presents a two scale Finite Element approach (FE2), adopting the periodic homogenization method, forfully coupled thermo-mechanical processes. The aim of this work is to predict the overall response of rate-dependent, non-linear, thermo-mechanically coupled problems of 3D periodic composite structures. The material constituents implicated in the analyses obey generalized standard materials laws, while the characteristic equations of the problem (balance law,first law of thermodynamics) are expressed and satisfied in both microscopic and macroscopic scales. For the numerical implementation in both scales, the finite element commercial software ABAQUS is utilized in the framework of small strains and ro...
An imbricated finite element technique has been recently developed in the context of multiscale inel...
The present work proposes a new approach for conducting thermo-elastic micromechanical analysis. It ...
We extend the FE-DMN method to fully coupled thermomechanical two-scale simulations of composite mat...
The current paper presents a two scale Finite Element approach (FE 2 ), adopting the periodic homoge...
Le présent article propose une approche multi-échelles par éléments finis (FE2). Elle est basée sur ...
A multi-scale FE2 approach based on the periodic homogenization theory is developed to predict the o...
Dans ce papier, une technique de modélisation multi-échelle (EF2) basée sur le principe d’homogénéis...
In this paper, a two scale Finite Element method (FE2 ), is presented to predict the non-linear macr...
National audienceIn this paper, a two-level Finite Element method (FE2), based on periodic homogeniz...
In this article, a first order two-scale finite element framework for fully coupled thermo-mechanica...
This paper presents a two-scale thermo-mechanical analysis framework for heterogeneous solids based ...
In the present paper, a two-scale FE technique based on periodic homogenization theory is investigat...
International audienceThe modern technological challenges on the engineering industry and the extens...
This paper presents an experimental approach aimed at analyzing and validating a two-scale nonlinear...
The main aim of this thesis is to develop advanced and efficient multiscale modeling and simulation ...
An imbricated finite element technique has been recently developed in the context of multiscale inel...
The present work proposes a new approach for conducting thermo-elastic micromechanical analysis. It ...
We extend the FE-DMN method to fully coupled thermomechanical two-scale simulations of composite mat...
The current paper presents a two scale Finite Element approach (FE 2 ), adopting the periodic homoge...
Le présent article propose une approche multi-échelles par éléments finis (FE2). Elle est basée sur ...
A multi-scale FE2 approach based on the periodic homogenization theory is developed to predict the o...
Dans ce papier, une technique de modélisation multi-échelle (EF2) basée sur le principe d’homogénéis...
In this paper, a two scale Finite Element method (FE2 ), is presented to predict the non-linear macr...
National audienceIn this paper, a two-level Finite Element method (FE2), based on periodic homogeniz...
In this article, a first order two-scale finite element framework for fully coupled thermo-mechanica...
This paper presents a two-scale thermo-mechanical analysis framework for heterogeneous solids based ...
In the present paper, a two-scale FE technique based on periodic homogenization theory is investigat...
International audienceThe modern technological challenges on the engineering industry and the extens...
This paper presents an experimental approach aimed at analyzing and validating a two-scale nonlinear...
The main aim of this thesis is to develop advanced and efficient multiscale modeling and simulation ...
An imbricated finite element technique has been recently developed in the context of multiscale inel...
The present work proposes a new approach for conducting thermo-elastic micromechanical analysis. It ...
We extend the FE-DMN method to fully coupled thermomechanical two-scale simulations of composite mat...