一种表征钛植入体纳米二氧化钛复合涂层界面强度的高效电化学方法

S. Mathai
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引用次数: 0

摘要

本研究开发的热分解工艺是在钛基上制备纳米(TiO2-SiO2)复合涂层的可行技术。电化学实验表明,所制备的涂层具有较高的抗降解性能和较高的仿生生长特性。在不同程度的电化学极化和阳极电流作用下,涂层均未发生降解。对这些涂层进行了仿生生长研究。在不同阶段对SBF溶液进行元素分析、电化学表征和表面形貌分析(包括SEM和AFM),结果表明磷灰石生长有效。
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An Efficient Electrochemical Approach for the Characterization of Interfacial Strength of Nano Titania-silica Composite Coating on Titanium Implants
The thermal decomposition process developed in the present work is a viable technique for the formation of a nano (TiO2-SiO2) composite coating on Titanium substrate. The electrochemical experiments revealed that the developed coatings had high degradation resistance characteristics and high biomimetic growth characteristics. There was no degradation on the coating even when it was subjected to different extent of electrochemical polarization and anodic current impression. The biomimetic growth studies of these coatings were carried out. The results of elemental analysis of the SBF solution, electrochemical characterization and surface topographical analysis including SEM and AFM carried out at different stages revealed that there was an efficient apatite growth.
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