This paper presents a multiscale computational homogenization model for the post localization behavior of a macroscale domain crossed by a cohesive discontinuity emanating from microstructural damage. The stress–strain and the cohesive macroscopic responses are obtained incorporating the underlying microstructure, in which the damage evolution results in the formation of a strain localization band. The macro structural kinematics entails a discontinuous displacement field and a non-uniform deformation field across the discontinuity. Novel scale transitions are formulated to provide a consistent coupling to the continuous microscale kinematics. From the solution of the micromechanical boundary value problem, the macroscale stress responses a...
We consider multiscale modeling of fracturing solids undergoing strain localization, whereby Statist...
This contribution presents the theoretical foundations of a Formulation (FOMF) for modeling heteroge...
Introduction: The past decade was marked by the emergence of a large number of so-called regularized...
This paper presents a multiscale computational homogenization model for the post localization behavi...
This paper presents a multi-scale modelling approach for bridging the microscale damage and macrosca...
The aim of this paper is to propose a continuous–discontinuous computational homogenization–localiza...
In this paper, a multi-scale technique is proposed for the modeling of microstructured materials up ...
This paper presents a framework that enables microstructural modelling of complex microstructures in...
Recently, a novel multi-scale modelling approach for damage and fracture problems was presented. Thi...
Computational homogenization allows to let the macroscopic constitutive behavior of materials emerge...
We present a novel two-scale finite element model for strain localization in solids, covering the co...
We consider multiscale modeling of fracturing solids undergoing strain localization, whereby Statist...
This contribution presents the theoretical foundations of a Formulation (FOMF) for modeling heteroge...
Introduction: The past decade was marked by the emergence of a large number of so-called regularized...
This paper presents a multiscale computational homogenization model for the post localization behavi...
This paper presents a multi-scale modelling approach for bridging the microscale damage and macrosca...
The aim of this paper is to propose a continuous–discontinuous computational homogenization–localiza...
In this paper, a multi-scale technique is proposed for the modeling of microstructured materials up ...
This paper presents a framework that enables microstructural modelling of complex microstructures in...
Recently, a novel multi-scale modelling approach for damage and fracture problems was presented. Thi...
Computational homogenization allows to let the macroscopic constitutive behavior of materials emerge...
We present a novel two-scale finite element model for strain localization in solids, covering the co...
We consider multiscale modeling of fracturing solids undergoing strain localization, whereby Statist...
This contribution presents the theoretical foundations of a Formulation (FOMF) for modeling heteroge...
Introduction: The past decade was marked by the emergence of a large number of so-called regularized...