Abstract
Titanium and its alloys are widely used in the biomedical field, as they have good mechanical properties for use in orthopedics. However, a surface that promotes bone tissue growth is desired. Although titanium is considered a bioactive element due to its thin layer of passive titanium dioxide, such characteristics can be improved to optimize its surface properties. This study aims to develop the Ti-25Ta-xZr system alloys (x = 0, 25, and 50% by weight) and perform a surface modification, micro-arc oxidation, to increase the bulk protection layer, create a porous layer and incorporate bioactive elements on the surface. The alloys had different phases (α”, α”+β, and β), and the surface modification process was able to incorporate calcium, phosphorus, and magnesium. In addition, the X-ray diffraction technique and XPS detected the crystalline phases of the respective alloying elements oxides. In this study, adding zirconium increased the amount of the β phase of "Ti-25Ta" and the surface layer, increased the number of pores, decreased the pore area, and reduced the surface roughness.
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