Abstract
► We examine the existence of coupled grain boundary motion in a 3-D grain boundary network. ► We demonstrate the existence of such coupled GB motion. ► We show it can occur with the same coupling factor. Coupled grain boundary motion was simulated in a three-dimensional nanocrystalline Al grain boundary network using molecular dynamics. It is shown that, in spite of the triple junction constraints, a symmetrical Σ75 tilt boundary can migrate during the microplastic regime with the same coupling factor as when simulated in a bicrystal configuration. After reaching the full plastic regime, dislocations start coming into play, changing the grain boundary structure and hindering further coupled motion.
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