Multi-scale modeling frequently relies on microstructural representative volume elements (RVEs) on which macroscopic deformation is imposed through kinematical boundary conditions. A particular choice of these boundary conditions may influence the obtained effective properties. For strain localization and damage analyses, the RVE is pushed beyond the limits of its representative character, and the applied boundary conditions have a significant impact on the onset and the type of macroscopic material instability to be predicted. In this article, we propose a new type of boundary conditions for microstructural volume elements, called percolation-path-aligned boundary conditions. Intrinsically, these boundary conditions capture the constrainin...
Classical finite element method including strain-softening materials suffers from a mesh-dependency ...
International audienceAn experimental-numerical study based on simple plane strain tensile tests of ...
Strain localization is an instability phenomenon occurring in deformable solid materials which under...
Multi-scale modeling frequently relies on microstructural representative volume elements (RVEs) on w...
This paper presents a framework that enables microstructural modelling of complex microstructures in...
A common choice for multiscale modeling of the mechanical response of composites is to use periodic ...
A common choice for multiscale modeling of the mechanical response of composites is to use periodic ...
We present a novel two-scale finite element model for strain localization in solids, covering the co...
Localization in the deformation field, even though initiated locally at the microscopic scale, leads...
We consider multiscale modeling of fracturing solids undergoing strain localization, whereby Statist...
The modeling of strain localization requires the use of different scales to describe the evolution of...
This paper presents a multiscale computational homogenization model for the post localization behavi...
Classical finite element method including strain-softening materials suffers from a mesh-dependency ...
International audienceAn experimental-numerical study based on simple plane strain tensile tests of ...
Strain localization is an instability phenomenon occurring in deformable solid materials which under...
Multi-scale modeling frequently relies on microstructural representative volume elements (RVEs) on w...
This paper presents a framework that enables microstructural modelling of complex microstructures in...
A common choice for multiscale modeling of the mechanical response of composites is to use periodic ...
A common choice for multiscale modeling of the mechanical response of composites is to use periodic ...
We present a novel two-scale finite element model for strain localization in solids, covering the co...
Localization in the deformation field, even though initiated locally at the microscopic scale, leads...
We consider multiscale modeling of fracturing solids undergoing strain localization, whereby Statist...
The modeling of strain localization requires the use of different scales to describe the evolution of...
This paper presents a multiscale computational homogenization model for the post localization behavi...
Classical finite element method including strain-softening materials suffers from a mesh-dependency ...
International audienceAn experimental-numerical study based on simple plane strain tensile tests of ...
Strain localization is an instability phenomenon occurring in deformable solid materials which under...