采用磁控溅射 TiN/VN 纳米多层膜对 316L 不锈钢进行表面改性，用于生物植入应用。

Surface modification of 316L stainless steel with magnetron sputtered TiN/VN nanoscale multilayers for bio implant applications.

机构信息

Central Electrochemical Research Institute, CSIR, Karaikudi, India.

出版信息

J Mater Sci Mater Med. 2012 Feb;23(2):329-38. doi: 10.1007/s10856-011-4500-7. Epub 2011 Nov 24.

Abstract

Nanoscale multilayered TiN/VN coatings were developed by reactive dc magnetron sputtering on 316L stainless steel substrates. The coatings showed a polycrystalline cubic structure with (111) preferential growth. XPS analysis indicated the presence of peaks corresponding to Ti2p, V2p, N1s, O1s, and C1s. Raman spectra exhibited the characteristic peaks in the acoustic range of 160-320 cm(-1) and in the optic range between 480 and 695 cm(-1). Columnar structure of the coatings was observed from TEM analysis. The number of adherent platelets on the surface of the TiN/VN multilayer, VN, TiN single layer coating exhibit fewer aggregation and pseudopodium than on substrates. The wear resistance of the multilayer coatings increases obviously as a result of their high hardness. Tafel plots in simulated bodily fluid showed lower corrosion rate for the TiN/VN nanoscale multilayer coatings compared to single layer and bare 316L SS substrate.

摘要

采用直流磁控反应溅射技术在 316L 不锈钢基体上制备了纳米多层 TiN/VN 涂层。涂层呈现出具有（111）择优取向的多晶立方结构。XPS 分析表明存在对应于 Ti2p、V2p、N1s、O1s 和 C1s 的峰。拉曼光谱显示在声学范围 160-320 cm(-1) 和光学范围 480-695 cm(-1) 之间存在特征峰。TEM 分析观察到涂层的柱状结构。TiN/VN 多层、VN、TiN 单层涂层表面附着的薄片数量比基体少，聚集和伪足也少。由于其高硬度，多层涂层的耐磨性明显提高。在模拟体液中的 Tafel 图表明，与单层和裸露的 316L SS 基体相比，TiN/VN 纳米多层涂层的腐蚀速率较低。

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采用磁控溅射 TiN/VN 纳米多层膜对 316L 不锈钢进行表面改性，用于生物植入应用。

Surface modification of 316L stainless steel with magnetron sputtered TiN/VN nanoscale multilayers for bio implant applications.

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