International audienceThe advances in material characterization by means of imaging techniques require powerful computational methods for numerical analysis. The present contribution focuses on highlighting the advantages of coupling the Extended Finite Elements Method (X-FEM) and the level sets method, applied to solve microstructures with complex geometries. The process of obtaining the level set data starting from a digital image of a material structure and its input into an extended finite element framework is presented. The coupled method is validated using reference examples and applied to obtain homogenized properties for heterogeneous structures. Although the computational applications presented here are mainly two dimensional, the ...
Composite materials are usually made of fibers and binding matrix. It’s always a challenge to model ...
In the solid mechanic community, the finite element method is widely used to simulate the mechanical...
In this paper we present a semi-multiscale methodology, where a micrograph is split into multiple in...
International audienceThe advances of material characterization by means of imaging techniques requi...
International audienceIn material science, images are increasingly used as input data for computatio...
International audienceIn multiscale analysis of components, there is usually a need to solve micro-s...
International audienceIn multiscale analysis of components, there is usually a need to solve micro-s...
AcceptéInternational audienceIn this contribution, a strategy is proposed for uncoupling geometrical...
International audienceIn this paper, we highlight that, when the eXtended Finite Element Method (XFE...
International audienceIn this contribution an integrated strategy is proposed for image-based comput...
International audienceMulti-scale analysis of components usually leads to solving micro-structures w...
Although the current numerical tools evolve quickly, the computation of mechanical problems faces ma...
Mechanical and functional properties of metallic materials are strongly related to their microstruct...
International audienceIn 1999, an extension of the finite element method was introduced. Later calle...
The systematic methodologies to derive accurate microstructural models are developed for studying th...
Composite materials are usually made of fibers and binding matrix. It’s always a challenge to model ...
In the solid mechanic community, the finite element method is widely used to simulate the mechanical...
In this paper we present a semi-multiscale methodology, where a micrograph is split into multiple in...
International audienceThe advances of material characterization by means of imaging techniques requi...
International audienceIn material science, images are increasingly used as input data for computatio...
International audienceIn multiscale analysis of components, there is usually a need to solve micro-s...
International audienceIn multiscale analysis of components, there is usually a need to solve micro-s...
AcceptéInternational audienceIn this contribution, a strategy is proposed for uncoupling geometrical...
International audienceIn this paper, we highlight that, when the eXtended Finite Element Method (XFE...
International audienceIn this contribution an integrated strategy is proposed for image-based comput...
International audienceMulti-scale analysis of components usually leads to solving micro-structures w...
Although the current numerical tools evolve quickly, the computation of mechanical problems faces ma...
Mechanical and functional properties of metallic materials are strongly related to their microstruct...
International audienceIn 1999, an extension of the finite element method was introduced. Later calle...
The systematic methodologies to derive accurate microstructural models are developed for studying th...
Composite materials are usually made of fibers and binding matrix. It’s always a challenge to model ...
In the solid mechanic community, the finite element method is widely used to simulate the mechanical...
In this paper we present a semi-multiscale methodology, where a micrograph is split into multiple in...