International audienceIn multiscale analysis of components, there is usually a need to solve micro-structures with complex geometries. In this paper, we use the extended finite element method (X-FEM) to solve scales involving complex geometries. The X-FEM allows one to use meshes not necessarily matchingthe physical surface of the problem while retaining the accuracy of the classical finite element approach. For material interfaces, this is achieved by introducing a new enrichment strategy. Although the mesh does not need to conform to the physical surfaces, it needs to be fine enough to capture the geometry of these surfaces. A simple algorithm is described to adaptively refine the mesh to meet this geometrical requirement. Numerical exper...
The macroscopic behavior of complex heterogeneous materials is strongly governed by the interactions...
Due to their underlying microtopology, cellular materials are known to show a complex mechanical beh...
In this paper, we develop a novel unfitted multiscale framework that combines two separate scales re...
International audienceIn multiscale analysis of components, there is usually a need to solve micro-s...
In multiscale analysis of components, there is usually a need to solve microstructures with complex ...
International audienceMulti-scale analysis of components usually leads to solving micro-structures w...
International audienceThe advances in material characterization by means of imaging techniques requi...
AcceptéInternational audienceIn this contribution, a strategy is proposed for uncoupling geometrical...
International audienceIt is a common fact that as we go down to lower scales, the geometrical comple...
Although the current numerical tools evolve quickly, the computation of mechanical problems faces ma...
Inspired by the first order numerical homogenization, we present a method for extracting continuous ...
International audienceThe advances of material characterization by means of imaging techniques requi...
International audienceThe eXtended Finite Element Method (X-FEM) allows one to enrich finite element...
The present paper investigates the tailoring of bimaterial microstructures minimizing their local st...
International audienceIn material science, images are increasingly used as input data for computatio...
The macroscopic behavior of complex heterogeneous materials is strongly governed by the interactions...
Due to their underlying microtopology, cellular materials are known to show a complex mechanical beh...
In this paper, we develop a novel unfitted multiscale framework that combines two separate scales re...
International audienceIn multiscale analysis of components, there is usually a need to solve micro-s...
In multiscale analysis of components, there is usually a need to solve microstructures with complex ...
International audienceMulti-scale analysis of components usually leads to solving micro-structures w...
International audienceThe advances in material characterization by means of imaging techniques requi...
AcceptéInternational audienceIn this contribution, a strategy is proposed for uncoupling geometrical...
International audienceIt is a common fact that as we go down to lower scales, the geometrical comple...
Although the current numerical tools evolve quickly, the computation of mechanical problems faces ma...
Inspired by the first order numerical homogenization, we present a method for extracting continuous ...
International audienceThe advances of material characterization by means of imaging techniques requi...
International audienceThe eXtended Finite Element Method (X-FEM) allows one to enrich finite element...
The present paper investigates the tailoring of bimaterial microstructures minimizing their local st...
International audienceIn material science, images are increasingly used as input data for computatio...
The macroscopic behavior of complex heterogeneous materials is strongly governed by the interactions...
Due to their underlying microtopology, cellular materials are known to show a complex mechanical beh...
In this paper, we develop a novel unfitted multiscale framework that combines two separate scales re...