International audienceIn this work, we propose a new fully coupled two-scales modelling for mechanical problems involving microstructure which makes use of a meshless constrained natural element approximation for accounting the large and very localized variations in the nodal density. This approach is an appealing choice for treating problems involving a microstructure (requiring fine local descriptions) whose evolution can be accurately described in the macroscopic scale using coarse approximations. This approach leads to a model where more than 95% of the nodes are in less than 5% of the considered domain volume.The technique proposed in this paper allows considering simultaneously both scales, the one related to the microstructure descri...
In this paper, a multi-scale technique is proposed for the modeling of microstructured materials up ...
Cellular materials are of special interest according to their peculiar mechanical properties. In thi...
This paper addresses a first-order and a second-order framework for the multiscale modelling of hete...
We present an extension of the computational homogenization theory to cases where different structur...
This part of the CISM course addresses basics and advanced topics onthe computational homogenization...
Predicting the macroscopic behaviour of materials on the basis of the mechanics of their microstruct...
peer reviewedThe formulation and implementation of a double-scale finite element model for hydro-mec...
The importance of a multiscale modeling to describe the behavior of materials with microstructure is...
According to their peculiar mechanical properties, the description of cellular materials is of high ...
We propose a new micro/macro modelling approach for mechanical problems involving microstructure. Th...
This paper presents the detailed implementation and computational aspects of a novel second-order co...
A gradient-enhanced computational homogenization procedure, that allows for the modelling of microst...
This paper presents an assessment of a two-scale framework for the study of softening materials. The...
In this paper, a multi-scale technique is proposed for the modeling of microstructured materials up ...
Cellular materials are of special interest according to their peculiar mechanical properties. In thi...
This paper addresses a first-order and a second-order framework for the multiscale modelling of hete...
We present an extension of the computational homogenization theory to cases where different structur...
This part of the CISM course addresses basics and advanced topics onthe computational homogenization...
Predicting the macroscopic behaviour of materials on the basis of the mechanics of their microstruct...
peer reviewedThe formulation and implementation of a double-scale finite element model for hydro-mec...
The importance of a multiscale modeling to describe the behavior of materials with microstructure is...
According to their peculiar mechanical properties, the description of cellular materials is of high ...
We propose a new micro/macro modelling approach for mechanical problems involving microstructure. Th...
This paper presents the detailed implementation and computational aspects of a novel second-order co...
A gradient-enhanced computational homogenization procedure, that allows for the modelling of microst...
This paper presents an assessment of a two-scale framework for the study of softening materials. The...
In this paper, a multi-scale technique is proposed for the modeling of microstructured materials up ...
Cellular materials are of special interest according to their peculiar mechanical properties. In thi...
This paper addresses a first-order and a second-order framework for the multiscale modelling of hete...