Add to ORKGInternational audienceThe description and computation of fine scale localized phenomena arising in a material (during nanoindentation, for instance) is a challenging problem that has given birth to many multiscale methods. In this work, we propose an analysis of a simple one-dimensional method that couples two scales, the atomistic one and the continuum mechanics one. The method includes an adaptive criterion in order to split the computational domain into two subdomains, that are described at different scales.Pour décrire des solides qui subissent des déformations peu régulières, mais dont les irrégularités sont localisées, beaucoup de méthodes multi-échelles ont été développées. Elles s’attachent en général à coupler un modèle continu (ou...
his PhD dissertation is about developing a multiscale methodology for coupling two differen...
This paper presents a concurrent simulation technique for analysing the deformation of systems that ...
A concurrent atomistic to continuum (AtC) coupling method is presented in this...
International audienceThe description and computation of fine scale localized phenomena arising in a...
International audienceThe description and computation of fine scale localized phenomena arising in a...
International audienceThe description and computation of fine scale localized phenomena arising in a...
Many numerical methods coupling a discrete description of matter with a continuum one have been rece...
Many numerical methods coupling a discrete description of matter with a continuum one have been rece...
Computational multiscale analyses are currently ubiquitous in science and technology. Different prob...
Computational multiscale analyses are currently ubiquitous in science and technology. Different prob...
International audienceA multiscale method that couples an atomistic with a continuum model is presen...
International audienceA multiscale method that couples an atomistic with a continuum model is presen...
Multiscale modeling approaches have attracted a lot of attention in the past decade due to the compu...
Computational multiscale analyses are currently ubiquitous in science and technology. Different prob...
Computational modelling of materials behaviour is becoming a reliable tool to underpin scientific in...
his PhD dissertation is about developing a multiscale methodology for coupling two differen...
This paper presents a concurrent simulation technique for analysing the deformation of systems that ...
A concurrent atomistic to continuum (AtC) coupling method is presented in this...
International audienceThe description and computation of fine scale localized phenomena arising in a...
International audienceThe description and computation of fine scale localized phenomena arising in a...
International audienceThe description and computation of fine scale localized phenomena arising in a...
Many numerical methods coupling a discrete description of matter with a continuum one have been rece...
Many numerical methods coupling a discrete description of matter with a continuum one have been rece...
Computational multiscale analyses are currently ubiquitous in science and technology. Different prob...
Computational multiscale analyses are currently ubiquitous in science and technology. Different prob...
International audienceA multiscale method that couples an atomistic with a continuum model is presen...
International audienceA multiscale method that couples an atomistic with a continuum model is presen...
Multiscale modeling approaches have attracted a lot of attention in the past decade due to the compu...
Computational multiscale analyses are currently ubiquitous in science and technology. Different prob...
Computational modelling of materials behaviour is becoming a reliable tool to underpin scientific in...
his PhD dissertation is about developing a multiscale methodology for coupling two differen...
This paper presents a concurrent simulation technique for analysing the deformation of systems that ...
A concurrent atomistic to continuum (AtC) coupling method is presented in this...