Surface oxidation of NiTi and its effects on thermal and mechanical properties

This study investigated the surface oxidation process of near equiatomic NiTi at elevated temperatures in air. The surface oxidation is found to involve the formation of several distinctive product layers in a particular sequence. The oxidation initiates by selective leaching of Ti from the alloy ma...

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Bibliographic Details
Published in:Intermetallics 2018-12, Vol.103, p.52-62
Main Authors: Mahmud, Abdus, Wu, Zhigang, Zhang, Junsong, Liu, Yinong, Yang, Hong
Format: Article
Language:English
Subjects:
Alloys
Chemical reactions
Depletion
Diffusion layers
Heat treating
Heat treatment
High temperature
Intermetallic compounds
Latent heat
Leaching
Martensitic transformation
Martensitic transformations
Mechanical properties
Nickel compounds
Nickel titanides
NiTi
Organic chemistry
Oxidation
Shape memory alloy
Thermodynamic properties
Thickness
Titanium compounds
Titanium dioxide
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Summary:This study investigated the surface oxidation process of near equiatomic NiTi at elevated temperatures in air. The surface oxidation is found to involve the formation of several distinctive product layers in a particular sequence. The oxidation initiates by selective leaching of Ti from the alloy matrix to form an outer TiO2 layer, resulting in Ti depletion within the matrix and the formation of an inner TiNi3 layer. Further oxidation leads to the formation of a composite layer consisting of TiO2 and Ni(Ti) in between the outer TiO2 and the inner TiNi3 layers when the TiNi3 layer reaches a critical thickness. This marks the onset of a steady state oxidation with the continuous expansion of the composite layer and inward movement of the inner TiNi3 layer. The chemical reactions for the formation of various layers are identified and a diffusion-based physical model is proposed to explain the oxidation process. Surface oxidation resulted in the significant decrease of the latent heat and increase of the critical stress for inducing the martensitic transformation of the oxidised samples, due to the formation of oxidation-related layers and a significant Ti-depleted zone underneath. [Display omitted] •Clarified the mechanism of the complex process of surface oxidation of NiTi.•Established a diffusion-based theory for the oxidation mechanism of NiTi.•Revealed the formation sequence of multilayer products in oxidation of NiTi.•Characterized effects of surface oxidation on transformation behaviour of NiTi.•Characterized effects of surface oxidation on mechanical properties of NiTi.
ISSN:0966-9795
1879-0216
DOI:10.1016/j.intermet.2018.09.013