М. Р. Филонов scite author profile

Bulk and porous metastable beta Ti-Nb-Zr(Ta) alloys for biomedical applications Brailovski, V.; Prokoshkin, S.; Gauthier, M.; Inaekyan, K.; Dubinskiy, S.; Petrzhik, M.; Filonov, M.Contact us / Contactez nous: nparc.cisti@nrc-cnrc.gc.ca. In this work, metastable beta Ti-Nb-Zr(Ta) ingots were manufactured by vacuum arc melting. The ingots thus obtained were divided into two batches: the first subjected to cold rolling (CR) from 30 to 85% of thickness reduction and subsequent annealing in the 450 to 900°C temperature region, and the second atomized to produce 100 μm size powders. This powder was used to manufacture open-cell porous material. Regardless of the CR intensity, Ti-(18…20)Nb-(5…6)Zr (at.%) samples subjected to 600°C (1 h) annealing showed a significant material softening due to the stress-induced martensitic transformation. The Young's modulus of these alloys varied between 45 and 55 GPa, and the yield stress, between 300 and 500 MPa. The obtained Young's moduli, which are comparable to 55-66 GPa of concurrent beta-titanium alloys and 45-50 GPa of superelastic Ti-Ni alloys, come close to those of cortical bones. Compression testing of the porous material as a function of porosity (from~45 to 66%) and interconnected cell size (d 50 from 300 to 760 μm) showed the following properties: Young's modulus from 7.5 to 3.7 GPa, which comes close to that of trabecular bones, and ultimate compression strength, of from 225 to 70 MPa.

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Structure formation during thermomechanical processing of Ti-Nb-(Zr, Ta) alloys and the manifestation of the shape-memory effect

Dubinskiy

Прокошкин²,

Braïlovski

et al. 2011

Phys. Metals Metallogr.

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Ternary Ti-Zr-Nb and quaternary Ti-Zr-Nb-Ta shape memory alloys for biomedical applications: Structural features and cyclic mechanical properties

Konopatsky

Dubinskiy

Zhukova

et al. 2017

Materials Science and Engineering: A

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Formation of nanostructures in thermomechanically-treated Ti–Ni and Ti–Nb-(Zr, Ta) SMAs and their roles in martensite crystal lattice changes and mechanical behavior

Прокошкин

Braïlovski

Korotitskiy

et al. 2013

Journal of Alloys and Compounds

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

Konopatsky

Sheremetyev

Dubinskiy

et al. 2021

Shap. Mem. Superelasticity

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