Novel Ceramic Coating on Titanium with High Mechanical Properties

Bioceramics Development and Applications Pub Date : 2010-12-02 DOI:10.4303/BDA/D110124
A. Valanezhad, K. Tsuru, Michito Maruta, G. Kawachi, S. Matsuya, K. Ishikawa
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引用次数: 10

Abstract

Phosphate coating layer was produced on titanium substrates by hydrothermal treatment with zinc phosphate solutions. Phosphatizing reaction produced zinc-titanium-phosphate coating layer on the surface by hydrothermal treatment at 250 °C. Ti substrate treated with low concentration of zinc phosphate solution for 14 h was not fully covered by the coating layer. On the other hand, surface coverage on Ti substrate treated with a high concentration of zinc phosphate solution for only 6 h was enhanced completely. SEM and XPS results indicated that the formation of the coating layer was inhibited by surface oxide layer. The coating layer was strongly attached on Ti substrate, moreover, the bonding strength between the coating layer and the Ti substrate was higher than the mechanical strength of binder.
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新型高力学性能钛陶瓷涂层
采用磷酸锌溶液对钛基进行水热处理,制备了一层磷酸盐包覆层。经250℃水热处理后的磷化反应在表面形成磷酸锌钛包覆层。低浓度磷酸锌溶液处理14 h后,Ti基体未被涂层完全覆盖。另一方面,高浓度磷酸锌溶液处理6 h后,钛基表面覆盖度完全增强。SEM和XPS结果表明,表面氧化层抑制了涂层的形成。涂层在Ti基体上具有较强的附着力,且涂层与Ti基体的结合强度高于粘结剂的机械强度。
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Bioceramics Development and Applications
Bioceramics Development and Applications
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