Add to ORKGBy comparing the evolution of the local and equal load sharing fiber bundle models, we point out the paradoxical result that stresses seem to make the local load sharing model stable when the equal load sharing model is not. We explain this behavior by demonstrating that it is only an apparent stability in the local load sharing model, which originates from a statistical effect due to sample averaging. Even though we use the fiber bundle model to demonstrate the apparent stability, we argue that it is a more general feature of fracture processes
We consider the Equal-Load-Sharing Fiber Bundle Model as a model for composite materials under stres...
Statistical models are essential to get a better understanding of the role of disorder in brittle di...
Various kinds of heterogeneity in solids including atomistic discreteness affect the fracture streng...
We use the local load sharing fiber bundle model to demonstrate a shielding effect where strong fibe...
This thesis investigates a generalized history-independent local load sharing (LLS) fiber bundle mod...
We study the competition between thermal fluctuations and stress enhancement in the failure process ...
We study the effect of the competition between disorder and stress enhancement in fracture processes...
We investigate the global failure threshold of an interconnected set of elements, when a finite frac...
We study the effect of heterogeneous load sharing in the fiber bundle models of fracture. ...
International audienceWe analyze the spatial fluctuations of stress in a simple tridimensional model...
Very recently [Y. Moreno et al), Phys. Rev. Lett. (85) 2865 (2000)], we have introduced a probabilis...
The stress response of polymer double networks depends not only on the properties of the constituent...
The stress response of polymer double networks depends not only on the properties of the constituent...
In this paper we anticipate some results of a work in progress (Del Piero et al., 2012), in which th...
The fiber bundle model describes a collection of elastic fibers under load. The fibers fail successi...
We consider the Equal-Load-Sharing Fiber Bundle Model as a model for composite materials under stres...
Statistical models are essential to get a better understanding of the role of disorder in brittle di...
Various kinds of heterogeneity in solids including atomistic discreteness affect the fracture streng...
We use the local load sharing fiber bundle model to demonstrate a shielding effect where strong fibe...
This thesis investigates a generalized history-independent local load sharing (LLS) fiber bundle mod...
We study the competition between thermal fluctuations and stress enhancement in the failure process ...
We study the effect of the competition between disorder and stress enhancement in fracture processes...
We investigate the global failure threshold of an interconnected set of elements, when a finite frac...
We study the effect of heterogeneous load sharing in the fiber bundle models of fracture. ...
International audienceWe analyze the spatial fluctuations of stress in a simple tridimensional model...
Very recently [Y. Moreno et al), Phys. Rev. Lett. (85) 2865 (2000)], we have introduced a probabilis...
The stress response of polymer double networks depends not only on the properties of the constituent...
The stress response of polymer double networks depends not only on the properties of the constituent...
In this paper we anticipate some results of a work in progress (Del Piero et al., 2012), in which th...
The fiber bundle model describes a collection of elastic fibers under load. The fibers fail successi...
We consider the Equal-Load-Sharing Fiber Bundle Model as a model for composite materials under stres...
Statistical models are essential to get a better understanding of the role of disorder in brittle di...
Various kinds of heterogeneity in solids including atomistic discreteness affect the fracture streng...