In-situ synchrotron diffraction study of the localized phase transformation and deformation behavior in NiTi SMA

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

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Author(s)

  • Pengyue Gao
  • Runguang Li
  • Yuzi Liu
  • Guangyao Chen
  • Ming Zhu
  • Yongxin Jian
  • Zhu Wu
  • Xionggang Lu
  • Chonghe Li

Detail(s)

Original languageEnglish
Article number140560
Journal / PublicationMaterials Science and Engineering A
Volume805
Online published19 Nov 2020
Publication statusPublished - 23 Feb 2021
Externally publishedYes

Abstract

The accumulation of dislocation defect was generally recognized as the origin of residual strain and the pseudoelastic instability in NiTi shape memory alloys (SMAs). In the present work, the pseudoelastic instability was studied by comparing the characteristics of Lüders-type and uniform transformation mechanism via in-situ synchrotron-based high-energy X-ray diffraction (XRD) characterization. The experimental results showed that the Lüders-type mechanism could result in an intense and sharp increase of stress-induced martensite at the expense of austenite. The residual austenite with high lattice strain within the Lüders band might be fully martensitic beyond the stress plateau of the ε-σ curve. With the accumulation of dislocation defect, the uniform martensitic transformation took place by the progressively homogeneous nucleation and growth of martensite in a local region. While the residual martensite and dislocation density was stabilized during mechanical cycling, the deformation of NiTi SMA turned into a mixture of (i) a balanced forward and reverse phase transformation between austenite and martensite, as well as (ii) the elastic deformation of the aggregate. There was no apparent increase in dislocation density detected during further cycling.

Research Area(s)

  • In-situ XRD, NiTi, Pseudoelastic instability, Stress-induced martensitic transformation

Citation Format(s)

In-situ synchrotron diffraction study of the localized phase transformation and deformation behavior in NiTi SMA. / Gao, Pengyue; Li, Runguang; Liu, Yuzi et al.
In: Materials Science and Engineering A, Vol. 805, 140560, 23.02.2021.

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review