Local atomic environment analysis of short and long-range solute-solute interactions in a symmetric tilt grain boundary

T Nenninger and F Sansoz, SCRIPTA MATERIALIA, 222, 115045 (2023).

DOI: 10.1016/j.scriptamat.2022.115045

We develop an efficient molecular-statics algorithm for predicting local solute-solute interaction effects on grain -boundary segregation. This algorithm is applied to the segregation and interaction of Ni and Cu solutes in a sigma 9 (221) symmetric tilt grain boundary in Ag. It is found that the strength of interaction between two solutes directly correlates with the change of average segregation energy in the local atomic environment of a fixed grain-boundary solute. It is shown that local interaction effects at grain boundaries can be either attractive or repulsive wherein long-range attractive effects increase the propensity for solute cluster nucleation. This study underscores the atomic nature of grain-boundary solute segregation and provides a tool that could yield meaningful insight into heterogeneous solute segregation phenomena in polycrystalline alloys beyond their dilute limit.

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