This contribution presents the theoretical foundations of a Formulation (FOMF) for modeling heterogeneous softening-based materials undergoing strain localization phenomena. The multi-scale model considers two coupled mechanical problems at different physical length scales, denoted as macro and micro scales, respectively. Every point, at the macro scale, is linked to a Representative Volume Element (RVE), and its constitutive response emerges from a consistent homogenization of the micro-mechanical problem. At the macroscopic level, the initially continuum medium admits the nucleation and evolution of cohesive cracks due to progressive strain localization phenomena taking place at the microscopic level and caused by shear bands, damage or a...
The conventional multiscale homogenization theory, which has mainly been applied to determine consti...
Abstract. A multi-scale numerical approach for modeling cracking in heterogeneous quasi-brittle mate...
Introduction: The past decade was marked by the emergence of a large number of so-called regularized...
This contribution presents a two-scale formulation devised to simulate failure in materials with het...
This paper presents a multi-scale modelling approach for bridging the microscale damage and macrosca...
Computational homogenization allows to let the macroscopic constitutive behavior of materials emerge...
In this paper, a multi-scale technique is proposed for the modeling of microstructured materials up ...
This paper presents a new semi-concurrent multi-scale model to study the behaviour of composite mate...
A computational multiscale framework is proposed that incorporates microstructural behaviour in a ma...
In the first part of this contribution, a brief theoretical revision of the mechanical and variation...
International audienceWe present a computational strategy for strongly coupled multi-scale analysis ...
Recently, a novel multi-scale modelling approach for damage and fracture problems was presented. Thi...
The conventional multiscale homogenization theory, which has mainly been applied to determine consti...
Abstract. A multi-scale numerical approach for modeling cracking in heterogeneous quasi-brittle mate...
Introduction: The past decade was marked by the emergence of a large number of so-called regularized...
This contribution presents a two-scale formulation devised to simulate failure in materials with het...
This paper presents a multi-scale modelling approach for bridging the microscale damage and macrosca...
Computational homogenization allows to let the macroscopic constitutive behavior of materials emerge...
In this paper, a multi-scale technique is proposed for the modeling of microstructured materials up ...
This paper presents a new semi-concurrent multi-scale model to study the behaviour of composite mate...
A computational multiscale framework is proposed that incorporates microstructural behaviour in a ma...
In the first part of this contribution, a brief theoretical revision of the mechanical and variation...
International audienceWe present a computational strategy for strongly coupled multi-scale analysis ...
Recently, a novel multi-scale modelling approach for damage and fracture problems was presented. Thi...
The conventional multiscale homogenization theory, which has mainly been applied to determine consti...
Abstract. A multi-scale numerical approach for modeling cracking in heterogeneous quasi-brittle mate...
Introduction: The past decade was marked by the emergence of a large number of so-called regularized...