Landscape of grain boundary migration in polycrystals

TL;DR

This paper analyzes grain boundary migration in polycrystals, revealing new insights into how migration velocity relates to curvature and energy, and proposing a generalized migration formula.

Contribution

It provides a comprehensive theoretical framework that resolves conflicts between experimental observations and classical models of GB migration.

Findings

Migration velocity shows little correlation with curvature.

GB energy influence depends mainly on GB step energy.

A generalized migration formula incorporating multiple driving forces is derived.

Abstract

Grain boundary (GB) migration is a pivotal process that significantly impacts the development of microstructures, thereby influencing the practical performance of polycrystalline materials. Recent advances in 3D experimental techniques have revealed conflicts between observed GB migration behaviors and classical theoretical models. These contradictions raise two fundamental questions, namely, whether GB migration is linearly related to curvature, and how GB energy affect GB migration? Here, we provide a comprehensive analysis of GB migration dynamics in polycrystals and resolve these conflicts within a theoretical framework. Unexpectedly, in a polycrystalline system, the range of GB migration velocities shows little correlation with the magnitude of its curvature. The extent of the influence of GB energy on GB migration is revealed to mostly depend on GB step energy. Finally, a more general GB migration formula is derived to incorporate various driving forces beyond curvature.