We present a simple example of a toughening mechanism in the homogenization of composites with soft inclusions, produced by a crack deflection at microscopic level. We show that the mechanism is connected to the irreversibility of the crack process; because of that it cannot be detected through the standard homogenization tool of the Gamma -convergence
International audienceTraditional computational approaches in simulating crack propagation in perfec...
We study the macroscopic mechanical behavior of materials with microscopic holes or hard inclusions....
Computational homogenization of microstructures with randomly distributed cracks is studied. The pur...
We present a simple example of a toughening mechanism in the homogenization of composites with soft ...
We provide a homogenization result for the energy-functional associated with a purely brittle compos...
Abstract. We provide a homogenisation result for the energy-functional asso-ciated with a purely bri...
International audienceThis paper addresses the question of the homogenization of fracture properties...
A homogenization result is given for a material having brittle inclusions arranged in a periodic str...
International audienceConsidering a semi-infinite crack propagating within a plane where the local f...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
Being able to predict the macroscopic response of a material from the knowledge of its constituent a...
International audienceA powerful semi-analytical method is developed to investigate the impact of to...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
We carry out a variational study for integral functionals that model the stored energy of a heteroge...
Being able to predict the macroscopic response of a material from the knowledge of its constituent a...
International audienceTraditional computational approaches in simulating crack propagation in perfec...
We study the macroscopic mechanical behavior of materials with microscopic holes or hard inclusions....
Computational homogenization of microstructures with randomly distributed cracks is studied. The pur...
We present a simple example of a toughening mechanism in the homogenization of composites with soft ...
We provide a homogenization result for the energy-functional associated with a purely brittle compos...
Abstract. We provide a homogenisation result for the energy-functional asso-ciated with a purely bri...
International audienceThis paper addresses the question of the homogenization of fracture properties...
A homogenization result is given for a material having brittle inclusions arranged in a periodic str...
International audienceConsidering a semi-infinite crack propagating within a plane where the local f...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
Being able to predict the macroscopic response of a material from the knowledge of its constituent a...
International audienceA powerful semi-analytical method is developed to investigate the impact of to...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
We carry out a variational study for integral functionals that model the stored energy of a heteroge...
Being able to predict the macroscopic response of a material from the knowledge of its constituent a...
International audienceTraditional computational approaches in simulating crack propagation in perfec...
We study the macroscopic mechanical behavior of materials with microscopic holes or hard inclusions....
Computational homogenization of microstructures with randomly distributed cracks is studied. The pur...