Journal article
Role of hydrostatic pressure on the phase stability, the ground state, and the transformation pathways of NiTi alloy
SR Bakhtiari, JZ Liu, BS Shariat, H Yang, Y Liu
Scripta Materialia | PERGAMON-ELSEVIER SCIENCE LTD | Published : 2018
Abstract
Equiatomic NiTi shape memory alloys exhibit multiple martensitic transformations from a parent B2 phase. However, there is an apparent discrepancy between theoretical predictions and experimental observations of the transformation pathways and final products. We studied the phase stabilities of NiTi martensites with respect to the effect of hydrostatic pressure using a generalised solid-state nudge elastic band method implemented in density functional theory to simulate the minimum energy pathways of transformations. The analysis demonstrates that base-centred orthorhombic (BCO) phase is unstable, thus will undergo the BCO → B19′ phase transformation at above 9 GPa pressure, as confirmed by ..
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Awarded by National Computational Infrastructure
Funding Acknowledgements
We wish to acknowledge the financial support of the Australian Research Council in grants DE150101795 and DP160105066. This work was supported by resources provided by the Pawsey Supercomputing Centre with funding from the Australian Government and the Government of Western Australia, and by National Computational Infrastructure. J.Z. Liu. acknowledges the support from Engineering Faculty seed grant 2017 in Monash University.