We use the variational phase-field model and the surfing boundary condition to propagate a crack macroscopically in various layered materials. We study two idealized situations, the first where the elastic modulus is uniform while the toughness alternates and a second where the toughness is uniform and elastic modulus alternates. We find that in the first case of toughness heterogeneity the effective toughness displays 'anomalous isotropy' in that it is independent of propagation direction and equal to that of the tougher material except when the crack propagation is parallel to the layers. In the second case of elastic heterogeneity, we find the behavior more anisotropic and consistent with the toughening effects of stress fluctuation and ...
Singular fields at the tip of an interface crack in anisotropic solids are reviewed with emphasis on...
International audienceTraditional computational approaches in simulating crack propagation in perfec...
Within this contribution, we present a diffuse interface approach for the simulation of crack nuclea...
This continues the study of the effective toughness of layered materials started in Hossain et al. (...
International audienceThis paper investigates the effects of plasticity on the effective fracture to...
We propose a versatile approach to computing the effective toughness of heterogeneous media. This ap...
It has been established that contrast in the elastic properties can lead to enhancement of fracture ...
The propagation of an adhesive crack through an anisotropic heterogeneous interface is considered. T...
This thesis consists of six research papers. Each of them attempts to contribute to the field of ela...
Heterogeneity is prevalent in almost all solids at some length scales, but it is a challenging task ...
The relative potency of common toughening mechanisms is explored for layered solids and particulate ...
Heterogeneous materials are ubiquitous in nature, and are increasingly being engineered to obtain de...
The mode I crack growth resistance of 3-layer, 5-layer and multi-layer elastic-plastic composites co...
In order to research the anisotropy and dispersion features of media with aligned fractures, models ...
Singular fields at the tip of an interface crack in anisotropic solids are reviewed with emphasis on...
International audienceTraditional computational approaches in simulating crack propagation in perfec...
Within this contribution, we present a diffuse interface approach for the simulation of crack nuclea...
This continues the study of the effective toughness of layered materials started in Hossain et al. (...
International audienceThis paper investigates the effects of plasticity on the effective fracture to...
We propose a versatile approach to computing the effective toughness of heterogeneous media. This ap...
It has been established that contrast in the elastic properties can lead to enhancement of fracture ...
The propagation of an adhesive crack through an anisotropic heterogeneous interface is considered. T...
This thesis consists of six research papers. Each of them attempts to contribute to the field of ela...
Heterogeneity is prevalent in almost all solids at some length scales, but it is a challenging task ...
The relative potency of common toughening mechanisms is explored for layered solids and particulate ...
Heterogeneous materials are ubiquitous in nature, and are increasingly being engineered to obtain de...
The mode I crack growth resistance of 3-layer, 5-layer and multi-layer elastic-plastic composites co...
In order to research the anisotropy and dispersion features of media with aligned fractures, models ...
Singular fields at the tip of an interface crack in anisotropic solids are reviewed with emphasis on...
International audienceTraditional computational approaches in simulating crack propagation in perfec...
Within this contribution, we present a diffuse interface approach for the simulation of crack nuclea...