International audienceThis paper presents a versatile model-free approach for linking the damage in highly heterogeneous materials at multiple scales. The proposed scheme evolves from phase-field modelling at the microscopic scale to simulate brittle failure, towards the estimation of the effective elastic, toughness and strength properties of the material at the mesoscopic scale, via a model-free coarse-graining technique. On one side, it's shown that, in comparison with the classical homogenisation approaches, the considered upscaling method: (i) requires no RVE (representative volume element), (ii) can be applied when the statistical homogeneity of the material ceases to exist and (iii) when sharp localisations are present. On the other,...
A hybrid multiscale framework is presented, which processes the material scales in a concurrent mann...
An overview of the modelling of quasi-brittle as well as ductile damage is given. The multiscale pro...
This paper describes a computational tool for the efficient study of failure in brittle heterogeneou...
Several different approaches are available in order to describe material behaviour. Considering mate...
Analyzing the fracture of heterogeneous materials is a complex problem, due to the fact that the mec...
Increasingly advanced numerical techniques are nowadays used to represent damage and failure in quas...
The conventional multiscale homogenization theory, which has mainly been applied to determine consti...
In this contribution we present a multiscale framework for the analysis of brittle materials based o...
The existence of a representative volume element (RVE) for a class of quasi-brittle materials having...
Macroscopic behavior of quasi-brittle materials is determined by their heterogeneous microstructure....
This contribution presents a two-scale formulation devised to simulate failure in materials with het...
A hybrid multiscale framework is presented, which processes the material scales in a concurrent mann...
An overview of the modelling of quasi-brittle as well as ductile damage is given. The multiscale pro...
This paper describes a computational tool for the efficient study of failure in brittle heterogeneou...
Several different approaches are available in order to describe material behaviour. Considering mate...
Analyzing the fracture of heterogeneous materials is a complex problem, due to the fact that the mec...
Increasingly advanced numerical techniques are nowadays used to represent damage and failure in quas...
The conventional multiscale homogenization theory, which has mainly been applied to determine consti...
In this contribution we present a multiscale framework for the analysis of brittle materials based o...
The existence of a representative volume element (RVE) for a class of quasi-brittle materials having...
Macroscopic behavior of quasi-brittle materials is determined by their heterogeneous microstructure....
This contribution presents a two-scale formulation devised to simulate failure in materials with het...
A hybrid multiscale framework is presented, which processes the material scales in a concurrent mann...
An overview of the modelling of quasi-brittle as well as ductile damage is given. The multiscale pro...
This paper describes a computational tool for the efficient study of failure in brittle heterogeneou...