This work investigates the accuracy and performance of a FE2 multi-scale implementation used to predict the behavior of composite materials. The equations are formulated assuming the small deformations solid mechanics approach in non-linear material models with hardening plasticity. The uniform strain boundary conditions are applied for the macro-to-micro transitions. A parallel algorithm was implemented in order to solve large engineering problems. The scheme proposed takes advantage of the domain decomposition method at the macro-scale and the coupling between each subdomain with a micro-scale model. The precision of the method is validated with a composite material problem and scalability tests are performed for showing the efficiency
In this paper, a multiscale modeling technique for an automated iterative loose coupling approach is...
The purpose of this work is the prediction of micromechanical fields and the overall material behavi...
National audienceIn this paper, a two-level Finite Element method (FE2), based on periodic homogeniz...
This work investigates the accuracy and performance of a FE2 multi-scale implementation used to pred...
This work investigates the accuracy and performance of a FE2 multi-scale implementation used to pred...
Dans ce papier, une technique de modélisation multi-échelle (EF2) basée sur le principe d’homogénéis...
An imbricated finite element technique has been recently developed in the context of multiscale inel...
In this paper, a two scale Finite Element method (FE2 ), is presented to predict the non-linear macr...
Composite materials possess a highly complex material behavior, and thus advanced simulation techniq...
Modeling failure and progressive damage of composite materials presents a challenging task. Phenomen...
This thesis aims to develop a High-Performance Computing implementation to solve large composite mat...
In the present paper, a two-scale FE technique based on periodic homogenization theory is investigat...
Abstract. A computationally efficient concurrent multi-scale methodology for modeling com-posites un...
In this chapter, a numerical multiscale modelling approach is presented and discussed. It bases on t...
An efficient multiscale approach is established in order to compute the macroscopic response of nonl...
In this paper, a multiscale modeling technique for an automated iterative loose coupling approach is...
The purpose of this work is the prediction of micromechanical fields and the overall material behavi...
National audienceIn this paper, a two-level Finite Element method (FE2), based on periodic homogeniz...
This work investigates the accuracy and performance of a FE2 multi-scale implementation used to pred...
This work investigates the accuracy and performance of a FE2 multi-scale implementation used to pred...
Dans ce papier, une technique de modélisation multi-échelle (EF2) basée sur le principe d’homogénéis...
An imbricated finite element technique has been recently developed in the context of multiscale inel...
In this paper, a two scale Finite Element method (FE2 ), is presented to predict the non-linear macr...
Composite materials possess a highly complex material behavior, and thus advanced simulation techniq...
Modeling failure and progressive damage of composite materials presents a challenging task. Phenomen...
This thesis aims to develop a High-Performance Computing implementation to solve large composite mat...
In the present paper, a two-scale FE technique based on periodic homogenization theory is investigat...
Abstract. A computationally efficient concurrent multi-scale methodology for modeling com-posites un...
In this chapter, a numerical multiscale modelling approach is presented and discussed. It bases on t...
An efficient multiscale approach is established in order to compute the macroscopic response of nonl...
In this paper, a multiscale modeling technique for an automated iterative loose coupling approach is...
The purpose of this work is the prediction of micromechanical fields and the overall material behavi...
National audienceIn this paper, a two-level Finite Element method (FE2), based on periodic homogeniz...