Title

A time-discrete model for dynamic fracture based on crack regularization

Document Type

Article

Publication Date

4-1-2011

Abstract

We propose a discrete time model for dynamic fracture based on crack regularization. The advantages of our approach are threefold: first, our regularization of the crack set has been rigorously shown to converge to the correct sharp-interface energy Ambrosio and Tortorelli (Comm. Pure Appl. Math.; 43(8): 999-1036 (1990); Boll. Un. Mat. Ital. B (7), 6(1):105-123, 1992); second, our condition for crack growth, based on Griffith's criterion, matches that of quasi-static settings Bourdin (Interfaces Free Bound 9(3): 411-430, 2007) where Griffith originally stated his criterion; third, solutions to our model converge, as the time-step tends to zero, to solutions of the correct continuous time model Larsen (Math Models Methods Appl Sci 20:1021-1048, 2010). Furthermore, in implementing this model, we naturally recover several features, such as the elastic wave speed as an upper bound on crack speed, and crack branching for sufficiently rapid boundary displacements. We conclude by comparing our approach to so-called "phase-field" ones. In particular, we explain why phase-field approaches are good for approximating free boundaries, but not the free discontinuity sets that model fracture. © 2010 Springer Science+Business Media B.V.

Publication Source (Journal or Book title)

International Journal of Fracture

First Page

133

Last Page

143

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