磁/电场约束下钛合金表面羟基磷灰石/TiO<sub>2</sub>复合生物涂层的制备

材料研究学报

2009, Vol. 23

Issue (5): 500-507

研究论文

本期目录 | 过刊浏览

磁/电场约束下钛合金表面羟基磷灰石/TiO₂复合生物涂层的制备

田昂; 林彩霞; 薛向欣; 高鹏

东北大学材料与冶金学院沈阳 110004

Electrochemical preparation of hydroxyapatite/TiO₂ composite coatings on titanium alloy under magnetic field

TIAN Ang; LIN Caixia; XUE Xiangxin; GAO Peng

School of Materials and Metallurgy; Northeastern University; Shenyang 110004)

引用本文:

田昂林彩霞薛向欣高鹏. 磁/电场约束下钛合金表面羟基磷灰石/TiO₂复合生物涂层的制备[J]. 材料研究学报, 2009, 23(5): 500-507.
, , , . Electrochemical preparation of hydroxyapatite/TiO₂ composite coatings on titanium alloy under magnetic field[J]. Chin J Mater Res, 2009, 23(5): 500-507.

全文: PDF(1416 KB)

摘要:

用恒电位阳极氧化法分别以硫酸和磷酸为电解液, 在钛合金基体上制备出具有不同孔径大小和不同晶型的TiO₂涂层. 外加磁场条件下, 在TiO₂涂层上电沉积形成纳米羟基磷灰石涂层. 当垂直电场方向施加1 T磁场时, 在洛伦兹力影响下生长成羟基磷灰石生长成长度大约为200 nm, 直径大约为50 nm的棒状晶粒; 在磁场平行于电场的条件下, 生成直径为50--70 nm的粒状晶粒. 纳米羟基磷灰石与多孔TiO₂涂层之间几何形貌的匹配程度, 影响复合涂层与钛合金基体的结合强度. 当TiO₂涂层的孔径大约为100 nm时, 棒状羟基磷灰石晶粒与钛合金基体间的锁合更牢固, 结合力更强.

关键词 ：材料表面与界面, 羟基磷灰石, 电沉积, TiO₂多孔涂层, 稳恒磁场

Abstract：

Using sulfuric acid and phosphoric acid as electrolyte respectively, TiO₂coatings of different pore size and physical properties were prepared on titanium alloy matrix by potentiostatic anodic oxidation method. On the TiO₂ coating, nano–hydroxyapatite (nHA) grain coatings was prepared by electro–deposition under the external magnetic field. When the magnetic field was applied perpendicular
to the current density, rod–like nHA crystals with a length scale of about 200 nm and an average diameter of about 50 nm were obtained. But when the magnetic field was parallel to the electric field, the hydroxyapatite grain presented as granular grain was about 50–70 nm in diameter. It was found that the matching degree between nano–hydroxyapatite and TiO₂ coatings directly affected the bonding strength
between composite coatings and Ti alloy substrate. When the TiO₂coating with a pore diameter of 100 nm was implaned by rod–like nHA crystals, the combination between the two layers was stronger.

Key words： surface and interface in the materials hydroxyapatite electrodeposition TiO₂porous coating static magnetic field

收稿日期: 2009-01-19

ZTFLH:

TB321

基金资助:

国家自然科学基金面上项目50872019资助项目.

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