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Improving the Wear and Corrosion Resistance of Titanium Alloy Parts via the Deposition of DLC Coatings

材料科学 涂层 冶金 腐蚀 图层(电子) 合金 溶解 类金刚石碳 基质(水族馆) 摩擦学 物理气相沉积 复合材料 薄膜 化学工程 海洋学 地质学 工程类 纳米技术
作者
Alexander Metel,Catherine Sotova,Sergey Fyodorov,Valery Zhylinski,Vadzim Chayeuski,Filipp Milovich,Anton Seleznev,Yuri Bublikov,Kirill Makarevich,Alexey Vereschaka
出处
期刊:C [Multidisciplinary Digital Publishing Institute]
卷期号:10 (4): 106-106 被引量:6
标识
DOI:10.3390/c10040106
摘要

This article compares the properties of the diamond-like carbon (DLC) coating with those of ZrN and (Zr,Hf)N coatings deposited on the Ti-6Al-4V titanium alloy substrate. To improve substrate adhesion during the deposition of the DLC coating, preliminary etching with chromium ions was conducted, ensuring the formation of a chromium-saturated diffusion surface layer in the substrate. A Si-DLC layer followed by a pure DLC layer was then deposited. The hardness of the coatings, their surface morphology, fracture strength in the scratch test, and tribological properties and wear resistance in the pin-on-disk test in contact with Al2O3 and steel indenters were investigated. The structure of the DLC coating was studied using transmission electron microscopy, and its corrosion resistance in an environment simulating blood plasma was also investigated. In the pin-on-disk test in contact with Al2O3 and AISI 52100 indenters, the DLC-coated sample demonstrates a much lower friction coefficient and significantly better wear resistance compared to the nitride-coated and uncoated samples. Both nitride coatings—(Zr,Hf)N and ZrN—and the DLC coating slow down the corrosive dissolution of the base compared to the uncoated sample. The corrosion currents of the (Zr,Hf)N-coated samples are 37.01 nA/cm2, 20% higher than those of the ZrN-coated samples. The application of (Zr,Hf)N, ZrN, and DLC coatings on the Ti-6Al-4V alloy significantly inhibits dissolution currents (by 30–40%) and increases polarization resistance 1.5–2.0-fold compared to the uncoated alloy in 0.9% NaCl at 40 °C. Thus, the DLC coating of the described structure simultaneously provides effective wear and corrosion resistance in an environment simulating blood plasma. This coating can be considered in the manufacture of medical products (in particular, implants) from titanium alloys, including those functioning in the human body and subject to mechanical wear (e.g., knee joint endoprostheses).
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