Atomistic study of nucleation and migration of the basal/prismatic interfaces in Mg single crystals

The formation of the basal/prismatic (BP) interfaces during nucleation and growth of a reoriented crystal in Mg single crystals under c-axis tension is investigated by molecular dynamics simulations. The BP interfaces nucleate by a shuffling mechanism via local atomic rearrangement. Both two-layer disconnection and one-layer disconnection contribute to the migration of the BP interfaces. The three-dimensional analysis reveals that the two-layer disconnection forms at the junction between the partial pyramidal dislocation and BP interfate. The BP interfacial disconnections prefer to move towards the [1 (2) over bar 10] direction rather than the [(1) over bar 010]/[0001] direction due to the accumulation of mismatches along the [1010]/[0001] direction. Moreover, the BP interface can transform to the {10 (1) over bar2} twin boundary and vice versa. The transformation from a BP interface to a twin boundary occurs through the diagonal pile-up of BP interface disconnections, and the reverse transformation involves an upright pile-up process. Both BP transformation and {10 (1) over bar2} twinning can effectively accommodate the applied tensile strain along the c-axis. The co-existing BP interfaces and {10 (1) over bar2} twin boundaries allow for large deviations of a twin interface from the {10 (1) over bar2} twin plane. (C) 2017 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.