Development of Ti-15Zr-Mo alloys for applying as implantable biomedical devices
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Data
2018-06-15
Autores
Correa, D. R.N.
Kuroda, P. A.B. [UNESP]
Lourenço, M. L. [UNESP]
Fernandes, C. J.C. [UNESP]
Buzalaf, M. A.R.
Zambuzzi, W. F. [UNESP]
Grandini, C. R. [UNESP]
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In this study, the effect of molybdenum content in Ti-15Zr-based alloys (wt%) was analyzed in terms of crystalline structure, microstructure, selected mechanical properties, and cytotoxicity. The samples were produced by argon arc-melting followed by hot rolling and heat treatment processes. The crystalline structure and microstructure were dependent of both alloying elements (zirconium and molybdenum). Ti-15Zr alloy displayed only laths of α′ phase, while the alloys up to Ti-15Zr-10Mo exhibited different proportions of α′ α” and β phases. Molybdenum content higher than 12.5 wt% fully stabilized the β phase. Vickers microhardness values of Ti-15Zr-Mo alloys were higher than those of CP-Ti due to solid solution and phase precipitation strengthening. Young's modulus values of Ti-15Zr-Mo alloys were lower than those of CP-Ti due to β phase stabilization. Cytotoxicity levels of Ti-15Zr-Mo alloys were within a tolerable range for biomedical purposes. In addition, we observed molybdenum content in Ti-15Zr-based alloys promoted an increase on pre-osteoblast adhesion up to 3 h of adhesion's time. Thus, Ti-15Zr-15Mo alloy presented better combination of properties than some traditional metallic biomaterials.
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Biomaterial, Mechanical properties, Microstructure, Titanium alloys
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Journal of Alloys and Compounds, v. 749, p. 163-171.