A generalised phase field model for fatigue crack growth in elastic–plastic solids with an efficient monolithic solver

Volume: 388, Pages: 114286 - 114286
Published: Jan 1, 2022
Abstract
We present a generalised phase field-based formulation for predicting fatigue crack growth in metals. The theoretical framework aims at covering a wide range of material behaviour. Different fatigue degradation functions are considered and their influence is benchmarked against experiments. The phase field constitutive theory accommodates the so-called AT1, AT2 and phase field-cohesive zone (PF-CZM) models. In regards to material deformation,...
Paper Details
Title
A generalised phase field model for fatigue crack growth in elastic–plastic solids with an efficient monolithic solver
Published Date
Jan 1, 2022
Volume
388
Pages
114286 - 114286
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