氧化层改性对NiTi支架耐蚀性的影响。

C Trépanier, M Tabrizian, L H Yahia, L Bilodeau, D L Piron
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引用次数: 293

摘要

由于其良好的不透光性、超弹性和形状记忆性能,镍钛(NiTi)是制造支架的潜在材料,因为这些特性可以促进支架的植入和精确定位。然而,镍钛合金的体外研究报告了合金的生物相容性和腐蚀行为取决于表面条件。表面氧化在提高镍钛的耐蚀性和生物相容性方面具有广阔的应用前景。本文研究了电抛光、热处理和硝酸钝化对镍钛支架耐蚀性和表面特性的影响。表征技术,如电位极化测试、扫描电子显微镜、俄歇电子能谱和x射线光电子能谱被用来将腐蚀行为与表面特征和表面处理联系起来。结果表明,所有这些表面处理都提高了合金的耐蚀性。这种改进是由于塑性变形的原生氧化层被去除并被新生长的更均匀的氧化层所取代。氧化层的均匀性,而不是其厚度和成分,似乎是解释耐蚀性提高的主要因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of modification of oxide layer on NiTi stent corrosion resistance.

Because of its good radiopacity, superelasticity, and shape memory properties, nickel-titanium (NiTi) is a potential material for fabrication of stents because these properties can facilitate their implantation and precise positioning. However, in vitro studies of NiTi alloys report the dependence of alloy biocompatibility and corrosion behavior on surface conditions. Surface oxidation seems to be very promising for improving the corrosion resistance and biocompatibility of NiTi. In this work, we studied the effect on corrosion resistance and surface characteristics of electropolishing, heat treatment, and nitric acid passivation of NiTi stents. Characterization techniques such as potentiodynamic polarization tests, scanning electron microscopy, Auger electron spectroscopy, and X-ray photoelectron spectroscopy were used to relate corrosion behavior to surface characteristics and surface treatments. Results show that all of these surface treatments improve the corrosion resistance of the alloy. This improvement is attributed to the plastically deformed native oxide layer removal and replacement by a newly grown, more uniform one. The uniformity of the oxide layer, rather than its thickness and composition, seems to be the predominant factor to explain the corrosion resistance improvement.

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