In this paper we present a semi-multiscale methodology, where a micrograph is split into multiple independent numerical model subdomains. The purpose of this approach is to enable a controlled reduction in model fidelity at the microscale, while providing more detailed material data for component level- or more advanced finite element models. The effective anisotropic elastic properties of each subdomain are computed using periodic boundary conditions, and are subsequently mapped back to a reduced mesh of the original micrograph. Alternatively, effective isotropic properties are generated using a semi-analytical method, based on averaged Hashin–Shtrikman bounds with fractions determined via pixel summation. The chosen discretization strateg...
The aim of this work is to develop an efficient multi–scale finite element framework to capture the ...
This paper presents an innovative homogenization sampling technique applied to multiscale modelling ...
The authors have shown in previous contributions that reduced order modeling with optimal cubature a...
In this paper we present a semi-multiscale methodology, where a micrograph is split into multiple in...
A micromechanical modeling framework is developed to analyze mechanical behavior of multi-phase mate...
International audienceMicro tomography images allow obtaining fully detailed microstructural descrip...
In this article, a computationally efficient multi-split MsXFEM is proposed to evaluate the elastic ...
International audienceIn material science, images are increasingly used as input data for computatio...
A second-order two-scale computational homogenization procedure for modelling deformation responses ...
2012-10-19Composite materials are the well-known substitutes for traditional metals in various indus...
A novel model-order reduction technique for the solution of the fine-scale equilibrium problem appea...
The present work is concerned with the application of projection-based, model reduction techniques t...
This work proposes a special type of Finite Element (FE) technology – the Empirical Interscale FE me...
This work presents a general formulation of small and large strain multiscale solid constitutive mod...
Material heterogeneities, such as pores, inclusion or manufacturing defects can have a detrimental i...
The aim of this work is to develop an efficient multi–scale finite element framework to capture the ...
This paper presents an innovative homogenization sampling technique applied to multiscale modelling ...
The authors have shown in previous contributions that reduced order modeling with optimal cubature a...
In this paper we present a semi-multiscale methodology, where a micrograph is split into multiple in...
A micromechanical modeling framework is developed to analyze mechanical behavior of multi-phase mate...
International audienceMicro tomography images allow obtaining fully detailed microstructural descrip...
In this article, a computationally efficient multi-split MsXFEM is proposed to evaluate the elastic ...
International audienceIn material science, images are increasingly used as input data for computatio...
A second-order two-scale computational homogenization procedure for modelling deformation responses ...
2012-10-19Composite materials are the well-known substitutes for traditional metals in various indus...
A novel model-order reduction technique for the solution of the fine-scale equilibrium problem appea...
The present work is concerned with the application of projection-based, model reduction techniques t...
This work proposes a special type of Finite Element (FE) technology – the Empirical Interscale FE me...
This work presents a general formulation of small and large strain multiscale solid constitutive mod...
Material heterogeneities, such as pores, inclusion or manufacturing defects can have a detrimental i...
The aim of this work is to develop an efficient multi–scale finite element framework to capture the ...
This paper presents an innovative homogenization sampling technique applied to multiscale modelling ...
The authors have shown in previous contributions that reduced order modeling with optimal cubature a...