SURFACE ANALYSIS OF MICRO-ARC OXIDIZED COATINGS DEPOSITED ON cp-Ti

YEON-WOOK KIM; TAE-HYUN NAM

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SURFACE ANALYSIS OF MICRO-ARC OXIDIZED COATINGS DEPOSITED ON cp-Ti

机译：沉积在cp-Ti上的微弧氧化涂层的表面分析

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The surface of commercially pure titanium (grade 4) was modified by micro-arc oxidation treatment. A porous TiO2 coating layer was formed on the Ti surface and its crystal structure was analyzed as rutile phase. Both the thickness of the TiO2 layer and the pore size on the surface were strongly dependent on the applied current density as well as the micro-arc oxidizing time during the oxidation treatment. When a current density of 50 mA/cm2 had been applied for 10 minutes, the thickness and the pore size of the oxide layer were 1.2 μm and 230 nm, respectively. The thickness and the pore size of the layer continued to increase with increasing the applied current density. The TiO2 passive layer of the titanium surface can attribute to the excellent biocompatibility and the formation of nano-sized pores may maximize the interlocking between mineralized bone and the surface of the Ti implant.

机译：商业纯钛（4级）的表面通过微弧氧化处理进行了改性。在Ti表面上形成多孔TiO 2涂层，并分析其晶体结构为金红石相。 TiO 2层的厚度和表面上的孔径都强烈地取决于所施加的电流密度以及在氧化处理期间的微弧氧化时间。当施加50mA / cm 2的电流密度10分钟时，氧化物层的厚度和孔径分别为1.2μm和230nm。随着施加的电流密度的增加，层的厚度和孔尺寸继续增加。钛表面的TiO2钝化层可归因于出色的生物相容性，纳米尺寸的孔的形成可最大化矿化骨骼与Ti植入物表面之间的互锁。

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《Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics》 |2009年第32期|共7页
作者
YEON-WOOK KIM; TAE-HYUN NAM;
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正文语种 eng
中图分类应用物理学;
关键词
Porous titanium layer; TiO2 layer; nano-sized pores.;

机译：多孔钛层;TiO2层;纳米孔。;

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1. SURFACE ANALYSIS OF MICRO-ARC OXIDIZED COATINGS DEPOSITED ON cp-Ti [J] . YEON-WOOK KIM, TAE-HYUN NAM Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2009,第31a32期

机译：沉积在cp-Ti上的微弧氧化涂层的表面分析
2. In Vitro Analysis of Electrophoretic Deposited Fluoridated Hydroxyapatite Coating on Micro-arc Oxidized AZ91 Magnesium Alloy for Biomaterials Applications [J] . Razavi Mehdi, Fathi Mohammadhossein, Savabi Omid, Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2015,第3期

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SURFACE ANALYSIS OF MICRO-ARC OXIDIZED COATINGS DEPOSITED ON cp-Ti

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