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Philosophical Magazine Volume 97, 2017 - Issue 16
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Part A: Materials Science

Atomistic study on shock behaviour of NiTi shape memory alloy

Qiuyun YinKey Laboratory of Mechanics in Fluid Solid Coupling Systems, Institute of Mechanics, Chinese Academy of Sciences, Beijing, P.R. China;School of Engineering Science, University of Chinese Academy of Sciences, Beijing, P.R. China
,
Xianqian WuKey Laboratory of Mechanics in Fluid Solid Coupling Systems, Institute of Mechanics, Chinese Academy of Sciences, Beijing, P.R. China;State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing, P.R. China;School of Engineering Science, University of Chinese Academy of Sciences, Beijing, P.R. ChinaCorrespondence[email protected]
&
Chenguang HuangKey Laboratory of Mechanics in Fluid Solid Coupling Systems, Institute of Mechanics, Chinese Academy of Sciences, Beijing, P.R. China;School of Engineering Science, University of Chinese Academy of Sciences, Beijing, P.R. China
Pages 1311-1333 | Received 20 Oct 2016, Accepted 09 Feb 2017, Published online: 21 Feb 2017
 
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Abstract

The shock behaviour of NiTi shape memory alloy is investigated by using molecular dynamics simulation. The nano-pillar samples of the alloy are subjected to the impact of a piston with a velocity of 350 m/s at initial environment temperatures of 325 and 500 K. At 325 K, we observe two different pathways of the formation of BCO phase, the gradient twins, and the detwinning phenomena, strongly depending on the local stress and the deformation state. As the initial temperature increases to 500 K, the plasticity is dominated by the dislocation movements rather than the twinning at 325 K. The phase transformation and plasticity result in stress attenuation when the stress wave propagates through the nano-pillar. Furthermore, it is interesting to note that multiple stress peaks occur due to the formation of local complex atomic structures with various wave speeds, leading to the catch up and overlap of the stress waves.

Acknowledgements

The authors wish to express their appreciation to Professor T. Zhu at Georgia Institute of Technology for providing the improved potential of NiTi.

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