Enhancement of metallic machine parts mechanical properties by the use of vibratory processing for oxide coated films formation and MoS2 solid lubricant coating deposit

IF 3.4 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Dieudonné Essola, Jean Chills Amba, Claude Valery Ngayihi Abbe, Joseph Nkongho Anyi, Vladimir Vitalevich Ivanov
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引用次数: 5

Abstract

Experimental studies have been carried out to establish the possibility of using vibratory machining technology through shock-wave transmission for oxide coating preparation on aluminum-alloyed machine components and also to discuss the technological possibilities of applying vibration mechanochemical solid lubricant coatings based on MoS2 to improve the surface quality and performance properties of machine component parts. The coating characteristics are determined by measuring and comparing certain tribological properties of the samples before processing, after normal coating, and after vibratory coating process. A deeper study with a scanning microscope was made by comparing result of normal and vibratory coating. The vibratory coating shows a reduction of grain sizes, a regular orientation of the grain, and a dense grain structure leading to the formation of a thin layer covered by a film orientated parallel to the surface of friction giving an imparted surface finish. The reduction of microroughness is also accompanied with good performances in terms of increasing in wear resistance and decreasing in coefficient of friction. This reflects the presence of complex influence of mechanical and chemical components in the formation of coating on superficial layers during lower shock-wave vibration giving at the end structured ameliorated state of surface that leads to an increase in the part lifespan and equally shows technological opportunities that can be used to improve surface quality and performance properties of machine component parts.

Abstract Image

提高金属机械零件的机械性能,采用振动加工,形成氧化膜和二硫化钼固体润滑剂涂层沉积
通过实验研究,确立了利用激波传输振动加工技术制备铝合金机械部件氧化涂层的可能性,探讨了应用基于二硫化钼的振动机械化学固体润滑涂层改善机械部件表面质量和性能的技术可能性。涂层特性是通过测量和比较样品在加工前、普通涂层后和振动涂层后的某些摩擦学性能来确定的。通过对正常涂层和振动涂层结果的比较,用扫描显微镜对其进行了更深入的研究。振动涂层显示晶粒尺寸的减小,晶粒的规则取向和致密的晶粒结构,导致形成由平行于摩擦表面取向的薄膜覆盖的薄层,从而赋予表面光洁度。微粗糙度的减小也带来了良好的耐磨性的提高和摩擦系数的降低。这反映了在较低的冲击波振动过程中,机械和化学成分对表层涂层形成的复杂影响,最终使表面的结构改善状态,从而增加了零件的使用寿命,同时也显示了可用于提高机器部件表面质量和性能的技术机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
8.60
自引率
0.00%
发文量
1
审稿时长
13 weeks
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