Analysis of 10(1)over-bar2 twinning via automated atomistic post- processing methods

CD Barrett, PHILOSOPHICAL MAGAZINE, 97, 1102-1128 (2017).

DOI: 10.1080/14786435.2017.1292058

10 (1) over bar2 twinning is the most prominent and most studied twin mode in hexagonal close-packed materials. Many works have been devoted to describing its nucleation, growth and interactions with other defects. Despite this, gaps and disagreements remain in the literature regarding some fundamental aspects of the twinning process. A rigorous understanding of the twinning process is imperative because without it higher scale models of plasticity cannot accurately capture deformation in important materials such as Mg, Ti, Zr and Zn. Motivated by this necessity, we have studied 10 (1) over bar2 twinning using molecular dynamics, focusing on automated processing techniques which can extract mechanistic information generalisable to continuum scale deformation. This demonstrates for the first time the automatic identification of twinning dislocation lines and Burgers vectors, and the elasto-plastic decomposition of the deformation gradient inside and around a twin embryo. These results confirm predictions of most authors regarding the dislocation-based twin growth process, while contradicting others who have argued that 10 (1) over bar2 twin growth stems from a shuffling process with no dislocation line.

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