Peridynamic formulation of the mean stress and incubation time fracture criteria and its correspondence to the classical Griffith's approach

Ignatiev, M. O. and Petrov, Y. V. and Kazarinov, N. A. and Oterkus, E. (2022) Peridynamic formulation of the mean stress and incubation time fracture criteria and its correspondence to the classical Griffith's approach. Continuum Mechanics and Thermodynamics. ISSN 0935-1175 (https://doi.org/10.1007/s00161-022-01159-8)

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Abstract

Peridynamic formulations of the mean stress and incubation time fracture models are discussed in the paper. Contemporary fracture simulations using the peridynamic theory often rely on critical bond stretch fracture criterion which is known to operate similar to energy-based fracture models. The energy-based fracture criteria—both in classical Griffith’s and Irwin’s form—are known to be powerful tools for fracture simulations and analysis. However, a number of experimentally observed dynamic fracture effects cannot be captured by these models, e.g. rate sensitivity of the material toughness. Thus, coupling of peridynamic approach with alternative stress-based fracture models would possibly broaden the peridynamics applicability. Here implementation technique of the aforementioned fracture model is discussed and its results for the case of a dynamically propagating crack with relatively low velocity due to quasistatic load appear to be in good agreement with the classical energy release rate approach.

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