Composite materials possess a highly complex material behavior, and thus advanced simulation techniques are necessary to compute their mechanical response. In this regard, especially modeling failure and progressive damage presents a challenging task. Conventional macro mechanical methods and even closed form estimates are in many cases not sufficient to predict the appropriate mechanical material response. Full-field simulations must be resorted to, but these are known to be very expensive from the computational point of view. In this contribution we propose a more efficient multiscale approach similar to FE2. Nonlinear material effects caused by progressive damage behavior are captured directly on the discretized material level using simp...
Abstract. An imbricated finite element technique has been recently developed in the context of multi...
In the present work, the evolution of damage in periodic composite materials is investigated through...
Dans ce papier, une technique de modélisation multi-échelle (EF2) basée sur le principe d’homogénéis...
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...
Modeling failure and progressive damage of composite materials presents a challenging task. Conventi...
An efficient multiscale approach is established in order to compute the macroscopic response of nonl...
An efficient multiscale approach is established in order to compute the macroscopic response of nonl...
Fiber-reinforced plastics are of increasing relevance in a broad variety of engineering applications...
In this paper, a two scale Finite Element method (FE2 ), is presented to predict the non-linear macr...
In the present paper, a two-scale FE technique based on periodic homogenization theory is investigat...
ABSTRACT: Modeling progressive damage in composite materials and structures poses considerable chall...
An imbricated finite element technique has been recently developed in the context of multiscale inel...
The purpose of this work is the prediction of micromechanical fields and the overall material behavi...
International audienceA variety of numerical methods can be applied for multi-scale simulation of co...
Abstract. An imbricated finite element technique has been recently developed in the context of multi...
In the present work, the evolution of damage in periodic composite materials is investigated through...
Dans ce papier, une technique de modélisation multi-échelle (EF2) basée sur le principe d’homogénéis...
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...
Modeling failure and progressive damage of composite materials presents a challenging task. Conventi...
An efficient multiscale approach is established in order to compute the macroscopic response of nonl...
An efficient multiscale approach is established in order to compute the macroscopic response of nonl...
Fiber-reinforced plastics are of increasing relevance in a broad variety of engineering applications...
In this paper, a two scale Finite Element method (FE2 ), is presented to predict the non-linear macr...
In the present paper, a two-scale FE technique based on periodic homogenization theory is investigat...
ABSTRACT: Modeling progressive damage in composite materials and structures poses considerable chall...
An imbricated finite element technique has been recently developed in the context of multiscale inel...
The purpose of this work is the prediction of micromechanical fields and the overall material behavi...
International audienceA variety of numerical methods can be applied for multi-scale simulation of co...
Abstract. An imbricated finite element technique has been recently developed in the context of multi...
In the present work, the evolution of damage in periodic composite materials is investigated through...
Dans ce papier, une technique de modélisation multi-échelle (EF2) basée sur le principe d’homogénéis...