Grain incompatibility determines the local structure of amorphous grain boundary complexions

TL;DR

This study shows that the local structure of amorphous grain boundary complexions is primarily influenced by the incompatibility between adjoining crystalline grains, affecting the density of ordered motifs and challenging the view of complexions as independent phases.

Contribution

It demonstrates that grain incompatibility, rather than grain orientation alone, determines the local structural order in amorphous grain boundary complexions.

Findings

Ordered polyhedra are localized at transition regions.

Incompatibility inversely affects structural order.

Complexions are single entities, not independent phases.

Abstract

Amorphous grain boundary complexions lack long-range crystalline order but are not featureless, as distinct gradients in structural short-range order have been reported through their thickness. In this work, we test the hypothesis that the distribution of short-range order is determined by the confining crystals using atomistic simulations of both Cu-Zr bicrystals and a random polycrystal. Voronoi polyhedra with structures similar to that of perfect face-centered cubic serve as signatures of high structural order and are only found at the amorphous-crystalline transition regions. The density of the ordered structural motifs within a specific amorphous-crystalline transition region is found to not be directly determined by the orientation and symmetry of the grain which touches it, but rather by the incompatibility between the two confining grains. Ordered polyhedra density is found to be inversely related to grain incompatibility, meaning that large incompatibilities between the confining crystals lead to less order in the amorphous-crystalline transition region. The finding that the entire grain-film-grain system must be considered to understand local structure unequivocally demonstrates that amorphous complexions are not simply a collection of independent phases which happen to nucleate at a grain boundary. Rather, an amorphous grain boundary complexion is a single entity that finds a local equilibrium configuration.