Structure and Superelasticity of Novel Zr-Rich Ti-Zr–Nb Shape Memory Alloys View Full Text


Ontology type: schema:ScholarlyArticle     


Article Info

DATE

2021-05-10

AUTHORS

A. Konopatsky, V. Sheremetyev, S. Dubinskiy, Y. Zhukova, K. Firestein, D. Golberg, M. Filonov, S. Prokoshkin, V. Brailovski

ABSTRACT

Two novel superelastic Ti-41Zr-8(10)Nb alloys were studied and compared to the reference Ti-18Zr-15Nb alloy (all in at. %) in terms of their microstructure and mechanical properties. A thermomechanical treatment consisting of cold rolling and post-deformation annealing was applied to all the alloys to create conditions for their superelastic behavior at room temperature. X-ray diffraction analysis demonstrated considerably larger lattice distortions of both parent and martensitic phases in Zr-rich alloys that resulted in significantly higher theoretical limits of recovery strain in these alloys (~ 8.0%) as compared to the reference alloy (~ 5.5%). However, during room temperature fatigue testing, the novel alloys accumulated considerable residual strains and showed a relatively weak fatigue resistance caused by the presence of notable quantities of α″-phase at this temperature. Conversely, the reference alloy containing only β-phase at the temperature of testing and therefore, a more favorable phase composition at the testing temperature manifested a better superelasticy, and therefore, a better fatigue resistance. Nonetheless, an excellent combined effect of shape memory and superelasticity in Zr-rich alloys indicates that their room temperature superelasticity could be improved via an additional adjustment of their chemical composition. More... »

PAGES

304-313

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s40830-021-00322-5

DOI

http://dx.doi.org/10.1007/s40830-021-00322-5

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1137887223


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