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Understanding the Room Temperature Recovery Behavior in a Ti–24Nb–4Zr–8Sn Superelastic Alloy

Published version
Peer-reviewed

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Abstract

jats:pMetastable β Ti–Nb‐based superelastic alloys have potential uses in the biomedical and aerospace industries due to an attractive combination of properties. However, their mechanical response can be seen to vary with cycling, limiting their uptake. Furthermore, recent studies have also highlighted changes in properties under no applied stress at room temperature, with the reasons for these changes poorly understood. To investigate potential mechanisms for these changes, the superelastic behavior of Ti–2448 is studied during mechanical cycling both pre‐ and post‐room temperature (RT) aging treatments. On cycling, there is a reduction in both jats:italicσ</jats:italic>jats:subSIM</jats:sub> and hysteresis area, consistent with behavior commonly seen in the literature. However, during RT aging, there is a rapid, time‐dependent process leading to a partial recovery. In situ diffraction data indicated that this recovery is coincident with a reduction in internal stresses, the potential mechanisms for which are discussed.</jats:p>

Description

Publication status: Published

Keywords

40 Engineering, 4016 Materials Engineering

Journal Title

Advanced Engineering Materials

Conference Name

Journal ISSN

1438-1656
1527-2648

Volume Title

Publisher

Wiley
Sponsorship
EPSRC (2110120)
Engineering and Physical Sciences Research Council (EP/R511870/1)
Engineering and Physical Sciences Research Council (2738194)
OGR would like to acknowledge support from the EPSRC and Rolls Royce through the provision of grant 2738194. NLC would like to acknowledge support from the EPSRC and the Defence Science and Technology Laboratory through the provision of an Industrial CASE studentship (EP/R511870/1). Beam time was provided by Diamond Light Source under MG33585.
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