The structure of alloy Ti – 10% Zr is studied after thermal oxidizing. Microstructural, phase and potentiometric analyses of the alloy are performed. The alloy is shown to be suitable for stomatology.
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18 September 2018
The third author’s name should read P. Gebara.
References
C. Chunxiang, H. Baomin, Z. Lichen, and L. Shuangjin, “Titanium alloys production technology, market prospects and industry development,” Mater. Design, 32, 1684 – 1691 (2011).
T. Frączek, M. Olejnik, and L. Jeziorski, “Ocena odpornooeci na zużycie tytanu Grade 2 po azotowaniu jarzeniowym,” Inżynieria Materiałowa, No. 5, 370 – 373 (2009).
M. Niinomi, M. Nakai, and J. Hieda, “Development of new metallic alloys for biomedical applications,” Acta Biomater., No. 8, 3888 – 3903 (2012).
T. Wierzchon, E. Czarnowska, and D. Krupa, Inżynieria Powierzchni w Wytwarzaniu Biomateria 3 ów Tytanowych, Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa (2004).
M. Gierzyñska-Dolna, Tytan i Jego Stopy. Przetwórstwo i Zastosowanie w Technice i Medycynie, Czêstochowa (2002).
E. B. Taddei, V. A. R. Henriques, C. R. M. Silva, and C. A. A. Cario, “Production of new titanium alloy for orthopedic implants,” Mater. Sci. Eng. C, 24, 683 – 687 (2004).
M. Long and H. J. Rack, “Titanium alloys in total joint replacements. A materials science perspective,” Biomaterials, 19, 1621 – 1639 (1998).
Wen-Fu Ho, Chung-Hsiao Cheng, Chang-Hung Pan, et al., “Structure, mechanical properties and grindability of dental Ti – 10Zr – X alloys,” Mater. Sci. Eng. C, 29, 36 – 43 (2009).
N. P. Lyakishev, S. P. Alisova, O. A. Bannykh, et al., Phase Diagrams of Binary Metallic Systems [in Russian], Mashinostroenie, Moscow (1996), Vol. 3, Book 1, pp. 402 – 403.
V. P. Gorbatenko and V. V. Gorbatenko, Nonferrous Metals and Alloys, Textbook [in Ukrainian], DVNZ “DonNTU,” Donetsk (2012).
V. A. Lobodyuk, Yu. N. Koval, and V. G. Pushin, “Crystal structure features of pre-transition phenomena and thermoelastic martensitic transformations in alloys of nonferrous metals,” Fiz. Met. Metalloved., 111(2), 169 – 194 (2011).
Shreir’s Corrosion. 4th Ed., Polarization Resistance (2010), Vol. 2, pp. 1466 – 1467.
A. Królikowski, K. Mendzik, J. Jasiñski, and M. Tatar, “Odporność korozyjna tytanu po procesie utleniania w złożu fluidalnym,” Ochrona przed korozją, No. 11, 61 – 64 (2007).
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Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 7, pp. 38 – 41, July, 2016.
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Lubas, M., Kulakovska, A. & Gembara, P. A Study of Novel Medical Alloys of the Ti – Zr System. Met Sci Heat Treat 58, 417–420 (2016). https://doi.org/10.1007/s11041-016-0027-3
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DOI: https://doi.org/10.1007/s11041-016-0027-3