In this thesis, cohesive fracture is investigated under three different perspectives. First we study the asymptotic behaviour of a variational model for damaged elasto- plastic materials in the case of antiplane shear. The energy functionals we consider depend on a small parameter ε, which forces damage concentration on regions of codi- mension one. We determine the Γ-limit as ε tends to zero and show that it contains an energy term involving the crack opening. The second problem we consider is the lower semicontinuity of some free disconti- nuity functionals with linear growth defined on the space of functions with bounded deformation. The volume term is convex and depends only on the Euclidean norm of the symmetrised gradient. We introduce a suitable class of cohesive surface terms, which make the functional lower semicontinuous with respect to L1 convergence. Finally, we prove the existence of quasistatic evolutions for a cohesive fracture on a prescribed crack surface, in small-strain antiplane elasticity. The main feature of the model is that the density of the energy dissipated in the fracture process depends on the total variation of the amplitude of the jump. Thus, any change in the crack opening entails a loss of energy, until the crack is complete. In particular this implies a fatigue phenomenon, i.e., a complete fracture may be produced by oscillation of small jumps.

Some results on cohesive energies: approximation, lower semicontinuity, and quasistatic evolution / Orlando, Gianluca. - (2016).

Some results on cohesive energies: approximation, lower semicontinuity, and quasistatic evolution

Gianluca Orlando
2016-01-01

Abstract

In this thesis, cohesive fracture is investigated under three different perspectives. First we study the asymptotic behaviour of a variational model for damaged elasto- plastic materials in the case of antiplane shear. The energy functionals we consider depend on a small parameter ε, which forces damage concentration on regions of codi- mension one. We determine the Γ-limit as ε tends to zero and show that it contains an energy term involving the crack opening. The second problem we consider is the lower semicontinuity of some free disconti- nuity functionals with linear growth defined on the space of functions with bounded deformation. The volume term is convex and depends only on the Euclidean norm of the symmetrised gradient. We introduce a suitable class of cohesive surface terms, which make the functional lower semicontinuous with respect to L1 convergence. Finally, we prove the existence of quasistatic evolutions for a cohesive fracture on a prescribed crack surface, in small-strain antiplane elasticity. The main feature of the model is that the density of the energy dissipated in the fracture process depends on the total variation of the amplitude of the jump. Thus, any change in the crack opening entails a loss of energy, until the crack is complete. In particular this implies a fatigue phenomenon, i.e., a complete fracture may be produced by oscillation of small jumps.
2016
Some results on cohesive energies: approximation, lower semicontinuity, and quasistatic evolution / Orlando, Gianluca. - (2016).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/218744
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