Effect of surface treatment and sterilization processes on the corrosion behavior of NiTi shape memory alloy

材料科学 腐蚀 钛镍合金 冶金 电解抛光 俄歇电子能谱 生物相容性 氧化物 合金 缝隙腐蚀 形状记忆合金 化学 核物理学 物理化学 物理 电解质 电极
作者
Benjamin Thierry,Maryam Tabrizian,Chantal M. Trepanier,O. Savadogo,L’H. Yahia
出处
期刊:Journal of Biomedical Materials Research [Wiley]
卷期号:51 (4): 685-693 被引量:201
标识
DOI:10.1002/1097-4636(20000915)51:4<685::aid-jbm17>3.0.co;2-s
摘要

Nickel-titanium (NiTi) alloy derives its biocompatibility and good corrosion resistance from a homogeneous oxide layer mainly composed of TiO2, with a very low concentration of nickel. In this article, we described the corrosion behavior of NiTi alloys after mechanical polishing, electropolishing, and sterilization processes using cyclic polarization and atomic absorption. As a preparative surface treatment, electropolishing decreased the amount of nickel on the surface and remarkably improved the corrosion behavior of the alloy by increasing the mean breakdown potential value and the reproducibility of the results (0.99 ± 0.05 V/SCE vs. 0.53 ± 0.42). Ethylene oxide and Sterrad® sterilization techniques did not modify the corrosion resistance of electropolished NiTi, whereas a steam autoclave and, to a lesser extent, peracetic acid sterilization produced scattered breakdown potential. In comparing the corrosion resistance of common biomaterials, NiTi ranked between 316L stainless steel and Ti6A14V even after sterilization. Electropolished NiTi and 316L stainless-steel alloys released similar amounts of nickel after a few days of immersion in Hank's solution. Measurements by atomic absorption have shown that the amount of released nickel from passive dissolution was below the expected toxic level in the human body. Auger electron spectroscopy analyses indicated surface contamination by Ca and P on NiTi during immersion, but no significant modification in oxide thickness was observed. © 2000 John Wiley & Sons, Inc. J Biomed Mater Res, 51, 685–693, 2000.

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