Review of microarc oxidation of titanium implant

Guang Yang, Yulu Meng, Chenghui Qian, Xiaohong Chen, Ping Liu, Honglei Zhou, Binbin Kang, Xiangpeng Tang, Lanjuan Diao, Fanfan Zhou
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Abstract

Titanium and titanium alloys are the most commonly used implant materials, but they are biologically inert. These materials lack rapid osseointegration and resistance to bacterial infections, problems that remain unsolved. The preparation of titanium dioxide coatings by microarc oxidation improves both the biocompatibility of titanium-based materials and their resistance to corrosion during long-term presence in the body. This paper discusses and summarizes the mechanisms of microarc oxidation and some classical models that need to be developed to provide a better understanding and guidance for future research. Subsequently, the effects of electrolyte type, additives, and surface modification of the microarc oxidized coating on the coating morphology were analyzed in detail. In addition, biological applications of microarc oxidation coatings are analyzed, including antimicrobial properties, osseointegration, hydrophilicity, corrosion resistance, and wear resistance.
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钛种植体微弧氧化研究进展
钛和钛合金是最常用的植入材料,但它们是生物惰性的。这些材料缺乏快速的骨整合和对细菌感染的抵抗力,这些问题仍未解决。通过微弧氧化法制备二氧化钛涂层,提高了钛基材料的生物相容性和在体内长期存在时的耐腐蚀性。本文对微弧氧化的机理和一些需要建立的经典模型进行了讨论和总结,为今后的研究提供更好的理解和指导。随后,详细分析了微弧氧化涂层的电解质类型、添加剂和表面改性对涂层形貌的影响。此外,还分析了微弧氧化涂层的生物应用,包括抗菌性能、骨整合性、亲水性、耐腐蚀性和耐磨性。
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