Materials & Design (Aug 2024)

Data-driven study of composition-dependent phase compatibility in NiTi shape memory alloys

  • Sina Hossein Zadeh,
  • Cem Cakirhan,
  • Danial Khatamsaz,
  • John Broucek,
  • Timothy D. Brown,
  • Xiaoning Qian,
  • Ibrahim Karaman,
  • Raymundo Arroyave

Journal volume & issue
Vol. 244
p. 113096

Abstract

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The martensitic transformation in NiTi-based Shape Memory Alloys (SMAs) provides a basis for shape memory effect and superelasticity, thereby enabling applications requiring solid-state actuation and large recoverable shape changes upon mechanical load cycling. In order to tailor the transformation to a particular application, the compositional dependence of properties in NiTi-based SMAs, such as martensitic transformation temperatures and hysteresis, has been exploited. However, the compositional design space is large and complex, and experimental studies are expensive. In this work, we develop an interpretable piecewise linear regression model that predicts the λ2 parameter, a measure of compatibility between austenite and martensite phases, and an (indirect) factor that is well-correlated with martensitic transformation hysteresis, based on the chemical features derived from the alloy composition. The model is capable of predicting, for the first time, the type of martensitic transformation for a given alloy chemistry. The proposed model is validated by experimental data from the literature as well as in-house measurements. The results show that the model can effectively distinguish between B19 and B19′ regions for any given composition in NiTi-based SMAs and accurately estimate the λ2 parameter.

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