In-vitro Biodegradation of Micro-Arc Oxidation on AZ31 Hybridized with Dopamine Compared to Phytic Acid

Research & Development in Material Science Pub Date : 2020-05-11 DOI:10.31031/rdms.2020.13.000809
H. Soliman, Sun Mingyao, G. Wan
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Abstract

More and more attention has been paid to magnesium alloys as a new generation of medical implant materials [1]. Mg alloys present physical and mechanical properties compatible with those of human bone however, the major obstacle for their use is the undesirable high corrosion rate [1]. This problem encourages the search for a protective coating to expand the use of Mg alloys. Currently, surface modification such as plasma electrolytic process (PEO) [2] Crimson Publishers Wings to the Research Research Article
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与植酸相比,多巴胺杂化AZ31微弧氧化的体外生物降解
镁合金作为新一代医用植入材料越来越受到人们的关注[1]。镁合金具有与人骨相适应的物理和机械性能,但其使用的主要障碍是不受欢迎的高腐蚀速率[1]。这个问题促使人们寻找一种保护涂层来扩大镁合金的使用。目前,表面改性如等离子体电解工艺(PEO)[2]以Crimson出版社Wings Research Research文章为主
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Research & Development in Material Science
Research & Development in Material Science
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