Biyomalzeme Olarak Kullanılan Titanyum Alaşımının Elektrokimyasal Sentezi

Year 2020, Volume: 32 Issue: 1, 253 - 258, 03.03.2020

Hülya Demirören Yeşim Yılmaz

https://doi.org/10.35234/fumbd.646709

Abstract

Biyomalzeme uygulamalarında kullanılan titanyum ve alaşımları, iyi mekanik özelliklere sahip olmasının yanı sıra yüksek korozyon direnci özelliklerinin nedeni ile tercih edilmektedir. Biyomalzeme olarak kullanılan CP-Ti (Grade 2) ve Ti6Al4V (Grade 5) numuneler 1 saat boyunca 750 oC'ye maruz bırakıldıktan sonra havada soğutulur. 0,5 mol H2S04 + 1 mol HC1 karışık çözeltide analiz edilmiştir. Bu çalışmada bu alaşımların elektrokimyasal davranışları polarizasyon eğrileri elde edilerek incelenmiştir. Isıl işlem ve alaşımlamanın etkisi elektrokimyasal değerler üzerinde belirlendi. Isıl işlemin ve alaşımlamanın titanyumun korozyon direncini artırdığı tespit edilmiştir.

Keywords

Elektrokimyasal Sentez, Titanyum, Isıl işlem

References

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• Lu W.C., Xu Y.L., Liu P.G. “Study on anodic dissolution process oftitanium alloy” Rare Metals, 1984. (1): 1-5
• He Y., Xıao H., Gan W., Yu Q., Yin F. É “The electrochemical solution behavior research of Titanium alloy under Different Electrolyte” Procedia CIRP 2018. 751-756 .
• Liu S, Zhang Z., Xiao S., Chen Y, “Effect of hydrogenation on microstructure evolution, mechanical and electrochemical properties of püre titanium”, Journal of Alloys and Compounds 2019 1139-1149
• Lee K., Choe H.C., Kim B.H., Ko Y.M. “The biocompatibility of HA thin films deposition on anodized titanium alloys “Surface Coating Technolgy 2010 (25): 267-270
• Shibata T., Zhu Y., The Effect of Film Formation Conditions of the Structure and Composition of Anodic Oxide Films on Titanium, Corros. Sci., Vol 37 (No. 2), 1995, p 253–270
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