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纳米晶电沉积铁钨/氧化铝复合材料:氧化铝亚微米颗粒对力学、摩擦学和腐蚀性能的影响

Nanocrystalline Electrodeposited Fe-W/AlO Composites: Effect of Alumina Sub-microparticles on the Mechanical, Tribological, and Corrosion Properties.

作者信息

Nicolenco Aliona, Mulone Antonio, Imaz Naroa, Tsyntsaru Natalia, Sort Jordi, Pellicer Eva, Klement Uta, Cesiulis Henrikas, García-Lecina Eva

机构信息

Department of Physical Chemistry, Vilnius University, Vilnius, Lithuania.

Institute of Applied Physics, Chisinau, Moldova.

出版信息

Front Chem. 2019 Apr 16;7:241. doi: 10.3389/fchem.2019.00241. eCollection 2019.

DOI:10.3389/fchem.2019.00241
PMID:31041307
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6476963/
Abstract

In this study, nanocrystalline Fe-W alloy and Fe-W/AlO composite coatings with various contents of sub-microsized alumina particles have been obtained by electrodeposition from an environmentally friendly Fe(III)-based electrolyte with the aim to produce a novel corrosion and wear resistant material. The increase in volume fraction of AlO in deposits from 2 to 12% leads to the grain refinement effect, so that the structure of the coatings change from nanocrystalline to amorphous-like with grain sizes below 20 nm. Nevertheless, the addition of particles to the Fe-W matrix does not prevent the development of a columnar structure revealed for all the types of studied coatings. The observed reduction in both hardness and elastic modulus of the Fe-W/AlO composites is attributed to the apparent grain size refinement/amorphization and the nanoporosity surrounding the embedded AlO particles. In the presence of 12 vol% of AlO in deposits, the wear rate decreases by a factor of 10 as compared to Fe-W alloy tested under dry friction conditions due to the lowering of tribo-oxidation. The addition of alumina particles slightly increases the corrosion resistance of the coatings; however, the corrosion in neutral chloride solution occurs through the preferential dissolution of Fe from the matrix. The obtained results provide a possibility to integrate the nanocrystalline Fe-W/AlO composite coatings into various systems working under dry friction conditions, for example, in high-temperature vacuum systems.

摘要

在本研究中,通过从环境友好的铁(III)基电解液中进行电沉积,获得了具有不同亚微米级氧化铝颗粒含量的纳米晶Fe-W合金和Fe-W/AlO复合涂层,旨在制备一种新型的耐腐蚀和耐磨材料。沉积物中AlO的体积分数从2%增加到12%会导致晶粒细化效应,使得涂层结构从纳米晶转变为晶粒尺寸低于20nm的类非晶结构。然而,向Fe-W基体中添加颗粒并不能阻止在所研究的所有涂层类型中都出现的柱状结构的发展。观察到的Fe-W/AlO复合材料硬度和弹性模量的降低归因于明显的晶粒细化/非晶化以及嵌入的AlO颗粒周围的纳米孔隙率。在沉积物中存在12体积%的AlO时,与在干摩擦条件下测试的Fe-W合金相比,由于摩擦氧化的降低,磨损率降低了10倍。氧化铝颗粒的添加略微提高了涂层的耐腐蚀性;然而,在中性氯化物溶液中的腐蚀是通过铁从基体中的优先溶解发生的。所得结果为将纳米晶Fe-W/AlO复合涂层集成到各种在干摩擦条件下工作的系统中提供了可能性,例如在高温真空系统中。

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