On the crack-driving force of phase-field models in linearized and finite elasticity
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The phase-field approach to fracture has been proven to be a mathematically sound and easy to implement method for computing crack propagation with arbitrary crack paths. Hereby crack growth is driven by energy minimization resulting in a variational crack-driving force. The definition of this force out of a tension-related energy functional does, however, not always agree with the established failure criteria of fracture mechanics. In this work different variational formulations for linear and finite elastic materials are discussed and ad-hoc driving forces are presented which are motivated by general fracture mechanical considerations. The superiority of the generalized approach is demonstrated by a series of numerical examples.
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Endowing variational phase-field fracture models with custom strength criteria
A state-dependent dissipation potential is used to add arbitrary elastic domains to variational phase-field fracture models while keeping degradation and strength criteria separate.
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