International audienceConsidering a semi-infinite crack propagating within a plane where the local fracture energy fluctuates due to the presence of microstructural heterogeneities, we emphasize the decisive influence of the material disorder on the effective fracture energy of the composite at a macroscopic scale. Through the use of large-scale numerical simulations of a crack interacting with tough inclusions of varying shape, we show how the disorder intensity and the inclusion geometry modify both quantitatively and qualitatively the toughening behavior with respect to the periodic case, where the inclusions are arranged in an ordered manner. This disorder-induced toughening is then rationalized using a theoretical homogenization framew...
In brittle solids, stress concentration at crack tips makes the macroscopic fracture properties very...
Fracture, and particularly brittle fracture, is a good example of an instability. For a homogeneous ...
Being able to predict the macroscopic response of a material from the knowledge of its constituent a...
International audienceThis paper addresses the question of the homogenization of fracture properties...
International audienceTraditional computational approaches in simulating crack propagation in perfec...
The relevant parameters at the microstructure scale that govern the macroscopic toughness of disorde...
International audienceA powerful semi-analytical method is developed to investigate the impact of to...
Being able to predict the macroscopic response of a material from the knowledge of its constituent a...
We present a simple example of a toughening mechanism in the homogenization of composites with soft ...
We study the sample-size dependence of the strength of disordered materials with a flaw, by numerica...
For a half-century, engineers know how to describe and predict the propagation of a crack in a model...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
We study size effects in the fracture strength of notched quasi-brittle materials using numerical si...
Abstract. We provide a homogenisation result for the energy-functional asso-ciated with a purely bri...
We provide a homogenization result for the energy-functional associated with a purely brittle compos...
In brittle solids, stress concentration at crack tips makes the macroscopic fracture properties very...
Fracture, and particularly brittle fracture, is a good example of an instability. For a homogeneous ...
Being able to predict the macroscopic response of a material from the knowledge of its constituent a...
International audienceThis paper addresses the question of the homogenization of fracture properties...
International audienceTraditional computational approaches in simulating crack propagation in perfec...
The relevant parameters at the microstructure scale that govern the macroscopic toughness of disorde...
International audienceA powerful semi-analytical method is developed to investigate the impact of to...
Being able to predict the macroscopic response of a material from the knowledge of its constituent a...
We present a simple example of a toughening mechanism in the homogenization of composites with soft ...
We study the sample-size dependence of the strength of disordered materials with a flaw, by numerica...
For a half-century, engineers know how to describe and predict the propagation of a crack in a model...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
We study size effects in the fracture strength of notched quasi-brittle materials using numerical si...
Abstract. We provide a homogenisation result for the energy-functional asso-ciated with a purely bri...
We provide a homogenization result for the energy-functional associated with a purely brittle compos...
In brittle solids, stress concentration at crack tips makes the macroscopic fracture properties very...
Fracture, and particularly brittle fracture, is a good example of an instability. For a homogeneous ...
Being able to predict the macroscopic response of a material from the knowledge of its constituent a...