沉积在不同表面密度的仿生叶脉纹理表面上的 Bi2S3 涂层的特性

IF 1.8 4区 工程技术 Q3 ENGINEERING, CHEMICAL
Junyan Wang, Jianxin Deng, Yichen Bao, Kexin Ma, Mingyuan Wang, Runzhou Tian
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引用次数: 0

摘要

为了研究不同表面密度的微纹理表面对涂层性能的影响,通过激光加工在基底表面制备了不同表面密度的仿生叶脉微纹理。采用电流体动力雾化技术在纹理表面沉积 Bi2S3 软涂层。通过划痕试验和摩擦磨损试验分析和讨论了纹理表面密度对涂层附着力和摩擦学性能的影响。结果表明,随着表面密度的增加,摩擦系数也明显增加。然而,达到一定程度后,摩擦系数趋于下降。与较高的表面密度(35.6%、36.2%)相比,沉积在较低表面密度(13.9%、14.5%)上的涂层具有更好的摩擦学性能。同时,与沉积在抛光基底上的涂层相比,沉积在纹理基底上的涂层附着力更强。合理的纹理表面密度能有效提高涂层的附着力和摩擦学性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Properties of Bi2S3 Coatings Deposited on the Bionic Leaf Vein Textured Surfaces With Different Surface Densities
In order to investigate the impact of micro‐textured surfaces with varying surface density on coating properties, the bionic leaf vein micro‐texture with different surface densities were prepared on the substrate surface by laser processing. Bi2S3 soft coatings were deposited on the textured surfaces by electrohydrodynamic atomization. The influence of textured surface density on the adhesion and tribological properties of the coatings was analysed and discussed by scratch tests and friction wear tests. The results showed a significant increase in the friction coefficient as the surface density increased. However, after reaching a certain point, the friction coefficient tended to decrease. The coatings deposited on the lower surface density (13.9%, 14.5%) have better tribological performance compared with the higher surface density (35.6%, 36.2%). Meanwhile, the adhesion of coatings on the textured substrate enhanced compared with coatings deposited on the polished substrate. A reasonable textured surface density can effectively improve the adhesion and tribological properties of the coating.
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来源期刊
Lubrication Science
Lubrication Science ENGINEERING, CHEMICAL-ENGINEERING, MECHANICAL
CiteScore
3.60
自引率
10.50%
发文量
61
审稿时长
6.8 months
期刊介绍: Lubrication Science is devoted to high-quality research which notably advances fundamental and applied aspects of the science and technology related to lubrication. It publishes research articles, short communications and reviews which demonstrate novelty and cutting edge science in the field, aiming to become a key specialised venue for communicating advances in lubrication research and development. Lubrication is a diverse discipline ranging from lubrication concepts in industrial and automotive engineering, solid-state and gas lubrication, micro & nanolubrication phenomena, to lubrication in biological systems. To investigate these areas the scope of the journal encourages fundamental and application-based studies on: Synthesis, chemistry and the broader development of high-performing and environmentally adapted lubricants and additives. State of the art analytical tools and characterisation of lubricants, lubricated surfaces and interfaces. Solid lubricants, self-lubricating coatings and composites, lubricating nanoparticles. Gas lubrication. Extreme-conditions lubrication. Green-lubrication technology and lubricants. Tribochemistry and tribocorrosion of environment- and lubricant-interface interactions. Modelling of lubrication mechanisms and interface phenomena on different scales: from atomic and molecular to mezzo and structural. Modelling hydrodynamic and thin film lubrication. All lubrication related aspects of nanotribology. Surface-lubricant interface interactions and phenomena: wetting, adhesion and adsorption. Bio-lubrication, bio-lubricants and lubricated biological systems. Other novel and cutting-edge aspects of lubrication in all lubrication regimes.
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