The role of plastic strain gradients in the crack growth resistance of metals

Emilio Martínez-Pañeda*, Vikram S. Deshpande, Christian Frithiof Niordson, Norman A. Fleck

*Corresponding author for this work

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Abstract

Crack advance from short or long pre-cracks is predicted by the progressive failure of a cohesive zone in a strain gradient, elasto-plastic solid. The presence of strain gradients leads to the existence of an elastic zone at the tip of a stationary crack, for both the long crack and the short crack cases. This is in sharp contrast with previous asymptotic analyses of gradient solids, where elastic strains were neglected. The presence of an elastic singularity at the crack tip generates stresses which are sufficiently high to activate quasi-cleavage. For the long crack case, crack growth resistance curves are predicted for a wide range of ratios of cohesive zone strength to yield strength. Remarkably, this feature of an elastic singularity is preserved for short cracks, leading to a severe reduction in tensile ductility. In qualitative terms, these predictions resemble those of discrete dislocation calculations, including the concept of a dislocation-free zone at the crack tip.
Original languageEnglish
JournalJournal of the Mechanics and Physics of Solids
Volume126
Pages (from-to)136-150
ISSN0022-5096
DOIs
Publication statusPublished - 2019

Keywords

  • Strain gradient plasticity
  • Length scales
  • Cohesive zone modelling
  • Finite element analysis
  • Fracture

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