Room-temperature vacancy emission from jog on edge dislocation in FCC nickel under glide force

YF Wang and WR Jian and W Cai, SCRIPTA MATERIALIA, 260, 116597 (2025).

DOI: 10.1016/j.scriptamat.2025.116597

Jogs, atomic-scale steps on dislocations, play an important role in crystal plasticity, yet they are often ignored in discrete dislocation dynamics (DDD) simulations due to their small sizes. While jogs on screw dislocations are known to move non-conservatively (i.e. climb) accompanied by vacancy emission, jogs on edge dislocations are commonly expected to move conservatively (i.e. glide) under ambient conditions. Here we report unexpected findings from molecular dynamics simulations of an edge dislocation containing a pair of unit jogs in face-centered cubic nickel at 300K. We observe that one of the jogs climbs and emits vacancies intermittently at higher stresses, unexpected at such a low temperature, as climb is typically associated with creep at roughly half of the melting temperature. Our results highlight the significance of the complex interplay between point defects (i.e., vacancies) and dislocations in room-temperature plasticity, suggesting that these interactions may be more significant than previously thought.

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