Fabrication of Ti-based Amorphous Composite and Biocompatibility Research

Ti-based alloy Ti64Zr5Fe6Si17Mo6Nb2 (At %) and Ti70Zr6Fe7Si17 (At %) ribbons with a width of 3-5 mm and thickness of about 80 um were fabricated by a single roller spun-melt technique. The feature of the alloy composition satisfies the three empirical rules. Amorphous structures of both alloys were...

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Bibliographic Details
Published inJournal of Wuhan University of Technology. Materials science edition Vol. 25; no. 1; pp. 8 - 11
Main Authors Cui, Chunxiang, Bai, Ling, Wang, Qingzhou, Bu, Shaojing, Qi, Yumin
Format Journal Article
LanguageEnglish
Published Heidelberg Wuhan University of Technology 01.02.2010
Springer Nature B.V
Subjects
Alloys
Biocompatibility
Chemistry and Materials Science
Diffraction
Materials Science
X射线衍射图
沉积速率
生物相容性
经验规则
钙磷酸盐
钛基合金
非晶复合材料
amorphous forming ability
biocompatibility
mixing enthalpy
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Summary:Ti-based alloy Ti64Zr5Fe6Si17Mo6Nb2 (At %) and Ti70Zr6Fe7Si17 (At %) ribbons with a width of 3-5 mm and thickness of about 80 um were fabricated by a single roller spun-melt technique. The feature of the alloy composition satisfies the three empirical rules. Amorphous structures of both alloys were confirmed by the X-ray diffraction pattern. To test the biocompatibility, both alloys were cultivated in the simulate body fluid (SBF). After 15 days, the Ca phosphates depositions on alloys surfaces were gained. Moreover, n(Ca)/n(P) atom ratio of the deposition is about 1.6/1, which approaches to that of human bone—1.66/1, suggesting that both alloys were with a favorable biocompatibility.
Bibliography:mixing enthalpy; amorphous forming ability; biocompatibility.
42-1680/TB
mixing enthalpy
TQ174.75
amorphous forming ability
biocompatibility.
TG146.23
ISSN:1000-2413
1993-0437
DOI:10.1007/s11595-010-1008-9