Most quasi-static variational models of fracture are based on the splitting of the energy functional into the sum of two terms: bulk, depending on the displacement gradient, and surface, depending on the displacement discontinuities. In this paper we consider the simplest one dimensional problem of this type, a bar stretched by a given axial displacement, and systematically compare two alternative interpretations of the surface energy term. In the first interpretation (elastic model), the surface energy is viewed as a cohesive energy which is stored and can be recovered. In the second (inelastic model), it is irreversibly lost. We show that by assuming an evolution scheme based on local minimization and by varying the convexity-concavity pr...
I discuss the model of an elastic bar with interface energy at the jump points of the displacement f...
We deal with a model for an elastic material with a cohesive crack along a prescribed fracture set. ...
By using a principle of least energy and a Barenblatt-type surface energy assumed as a smooth functi...
The variational model here proposed attempts a unified approach to plasticity and fracture. It is ba...
For an elastic body with limited strength, the equilibrium configurations can be obtained by minimiz...
In this paper we anticipate some results of a work in progress (Del Piero et al., 2012), in which th...
In this paper we anticipate some results of a work in progress (Del Piero et al., 2012), in which th...
This communication anticipates some results of a work in progress [1], addressed to explore the effi...
In the fracture model presented in this paper, the basic assumption is that the energy is the sum of...
International audienceIn the spirit of the variational approach of Fracture Mechanics initiated in [...
This communication anticipates some results of a work in progress [1], addressed to explore the effi...
This book exposes a number of mathematical models for fracture of growing difficulty. All models are...
Abstract. In the fracture model presented in this paper, the basic assumption is that the energy is ...
In the framework of rate-independent systems, a family of elastic-plastic-damage models is proposed ...
I discuss the model of an elastic bar with interface energy at the jump points of the displacement f...
We deal with a model for an elastic material with a cohesive crack along a prescribed fracture set. ...
By using a principle of least energy and a Barenblatt-type surface energy assumed as a smooth functi...
The variational model here proposed attempts a unified approach to plasticity and fracture. It is ba...
For an elastic body with limited strength, the equilibrium configurations can be obtained by minimiz...
In this paper we anticipate some results of a work in progress (Del Piero et al., 2012), in which th...
In this paper we anticipate some results of a work in progress (Del Piero et al., 2012), in which th...
This communication anticipates some results of a work in progress [1], addressed to explore the effi...
In the fracture model presented in this paper, the basic assumption is that the energy is the sum of...
International audienceIn the spirit of the variational approach of Fracture Mechanics initiated in [...
This communication anticipates some results of a work in progress [1], addressed to explore the effi...
This book exposes a number of mathematical models for fracture of growing difficulty. All models are...
Abstract. In the fracture model presented in this paper, the basic assumption is that the energy is ...
In the framework of rate-independent systems, a family of elastic-plastic-damage models is proposed ...
I discuss the model of an elastic bar with interface energy at the jump points of the displacement f...
We deal with a model for an elastic material with a cohesive crack along a prescribed fracture set. ...
By using a principle of least energy and a Barenblatt-type surface energy assumed as a smooth functi...