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Molecular-dynamics study of ductile and brittle fracture in model noncrystalline solids

1999; American Physical Society; Volume: 60; Issue: 10 Linguagem: Inglês

10.1103/physrevb.60.7062

1095-3795

Michael L. Falk,

Electromagnetic Effects on Materials

Molecular-dynamics simulations of fracture in systems akin to metallic glasses are observed to undergo embrittlement due to a small change in interatomic potential. This change in fracture toughness, however, is not accompanied by a corresponding change in flow stress. Theories of brittle fracture proposed by Freund and Hutchinson indicate that strain rate sensitivity is the controlling physical parameter in these cases. A recent theory of viscoplasticity in this class of solids by Falk and Langer further suggests that the change in strain rate sensitivity corresponds to a change in the susceptibility of local shear transformation zones to applied shear stresses. A simple model of these zones is developed in order to quantify the dependence of this sensitivity on the interparticle potential.