Micro-to-macro connection techniques constitute a key ingredient in the formulation of multiscale strategies. In this contribution several connection methods are explored for the concurrent multiscale analysis of brittle heterogeneous materials. Particularly, these techniques are investigated in a domain decomposition strong coupling multiscale framework. The structural component under analysis is partitioned into a number of non-overlapping domains and a fine scale resolution is assigned therein in an adaptive manner exploiting a zoom-in technique. Mesh refinement is employed in the domains where crack coalescence and growth take place. The original contribution presented in this manuscript consists in the study of different strong and wea...
Key Words: multiscale finite element; nonlinear fracture mechanics; adaptive modelling In this paper...
In this contribution we present a domain decomposition framework for the multiscale analysis of soft...
Material behavior and microstructure geometries at small scales strongly influence the physical beha...
Micro-to-macro connection techniques constitute a key ingredient in the formulation of multiscale st...
In this contribution we describe a methodology for the multiscale analysis of heterogeneous quasi-br...
Concurrent multiscale analysis of quasi-brittle heterogeneous materials such as concrete and rock is...
A hybrid multiscale framework is presented, which processes the material scales in a concurrent mann...
In this contribution we present a multiscale framework for the analysis of brittle materials based o...
Computational material design is progressively gaining momentum in the engineering world. Recent bre...
The global response of a system is often governed by the material behaviour at smaller length scales...
In this contribution we describe a methodology for the study of softening brittle materials at diffe...
In this contribution, dual and primal domain decomposition techniques are studied for the multiscale...
Key Words: multiscale finite element; nonlinear fracture mechanics; adaptive modelling In this paper...
In this contribution we present a domain decomposition framework for the multiscale analysis of soft...
Material behavior and microstructure geometries at small scales strongly influence the physical beha...
Micro-to-macro connection techniques constitute a key ingredient in the formulation of multiscale st...
In this contribution we describe a methodology for the multiscale analysis of heterogeneous quasi-br...
Concurrent multiscale analysis of quasi-brittle heterogeneous materials such as concrete and rock is...
A hybrid multiscale framework is presented, which processes the material scales in a concurrent mann...
In this contribution we present a multiscale framework for the analysis of brittle materials based o...
Computational material design is progressively gaining momentum in the engineering world. Recent bre...
The global response of a system is often governed by the material behaviour at smaller length scales...
In this contribution we describe a methodology for the study of softening brittle materials at diffe...
In this contribution, dual and primal domain decomposition techniques are studied for the multiscale...
Key Words: multiscale finite element; nonlinear fracture mechanics; adaptive modelling In this paper...
In this contribution we present a domain decomposition framework for the multiscale analysis of soft...
Material behavior and microstructure geometries at small scales strongly influence the physical beha...