Pinning of dislocations in disordered alloys: effects of dislocation orientation
Zaiser M, Wu R (2022)
Publication Type: Journal article
Publication year: 2022
Journal
Book Volume: 6
Article Number: 4
Issue: 1
DOI: 10.1186/s41313-021-00036-2
Abstract
The current interest in compositionally complex alloys including so called high entropy alloys has caused renewed interest in the general problem of solute hardening. It has been suggested that this problem can be addressed by treating the alloy as an effective medium containing a random distribution of dilatation and compression centers representing the volumetric misfit of atoms of different species. The mean square stresses arising from such a random distribution can be calculated analytically, their spatial correlations are strongly anisotropic and exhibit long-range tails with third-order power law decay (Geslin and Rodney 2021; Geslin et al. 2021). Here we discuss implications of the anisotropic and long-range nature of the correlation functions for the pinning of dislocations of arbitrary orientation. While edge dislocations are found to follow the standard pinning paradigm, for dislocations of near screw orientation we demonstrate the co-existence of two types of pinning energy minima.
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APA:
Zaiser, M., & Wu, R. (2022). Pinning of dislocations in disordered alloys: effects of dislocation orientation. Materials Theory, 6. https://doi.org/10.1186/s41313-021-00036-2
MLA:
Zaiser, Michael, and Ronghai Wu. "Pinning of dislocations in disordered alloys: effects of dislocation orientation." Materials Theory 6 (2022).
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