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Fabrication of Bioactive Apatite Nuclei Precipitated Titanium by Using Electromagnetic Induction Heating

Bioceramics Development and Applications Pub Date : 2010-12-02 DOI:10.4303/BDA/D110122
Takeshi Yabutsuka, M. Hibino, T. Yao, Kojiro Tanaka, M. Takemoto, M. Neo, Takashi Nakamura
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引用次数: 10

Abstract

Many micro pores were formed on the surface of a titanium (Ti) plate by sulfuric acid treatment, then apatite nuclei were precipitated in the pores of the Ti plate by direct heating of the plate by using electromagnetic induction in a simulated body fluid (SBF). When the Ti plate was soaked in SBF, amorphous calcium phosphate thin film covered the whole surface within 6 h and it grew into hydroxyapatite within 12 h. The hydroxyapatite layer showed high adhesive strength to the Ti plate due to a mechanical interlocking effect between hydroxyapatite grown in the micro pores and the Ti plate.
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电磁感应加热制备生物活性磷灰石核沉淀钛
硫酸处理后的钛(Ti)板表面形成许多微孔,然后在模拟体液(SBF)中利用电磁感应直接加热钛(Ti)板,在钛(Ti)板的孔中沉淀磷灰石核。将钛板浸泡在SBF中,6 h内无定形磷酸钙薄膜覆盖整个表面,12 h内生长为羟基磷灰石。微孔中生长的羟基磷灰石与钛板之间存在机械互锁作用,羟基磷灰石层与钛板具有较高的粘附强度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Bioceramics Development and Applications
Bioceramics Development and Applications
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