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Influence of Voltage on Microstructure of Micro-Arc Oxide Films on TC4 Titanium Alloy

The porous ceramic biologic films were prepared on the surface of Ti6Al4V (TC4) with micro-arc oxidation technology (MAO). The phase composition, microstructure and cross section morphology, surface elements composition and valence state of micro-arc oxide films were studied. Results show that with...

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Published in:Key Engineering Materials 2016-07, Vol.697, p.617-622
Main Authors: Sun, Yan Hua, Yan, Ji Kang, Teng, Yuan, Tang, Wan Xia, Ni, Er Xin, Fang, Shu Ming, Yang, Gang, Wu, Yun Feng, Shi, Zhe
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container_title Key Engineering Materials
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Yan, Ji Kang
Teng, Yuan
Tang, Wan Xia
Ni, Er Xin
Fang, Shu Ming
Yang, Gang
Wu, Yun Feng
Shi, Zhe
description The porous ceramic biologic films were prepared on the surface of Ti6Al4V (TC4) with micro-arc oxidation technology (MAO). The phase composition, microstructure and cross section morphology, surface elements composition and valence state of micro-arc oxide films were studied. Results show that with increasing of the micro-arc oxidation voltage, the better biocompatible hydroxyapatite appears on the surface of titanium alloy (TC4). The high voltage promotes the surface pore size enlarge.
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subjects Biocompatibility
Electric potential
Electrolytes
Engineering
Hydroxyapatite
Medical research
Morphology
Oxidation
Phosphorus
Pore size
Power supply
Protective coatings
Surgical implants
Titanium alloys
Titanium base alloys
Voltage
title Influence of Voltage on Microstructure of Micro-Arc Oxide Films on TC4 Titanium Alloy
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