Resistant Properties of Lubricating Materials with Fullerene Nanoadditives

Problemi tribologii Pub Date : 2023-06-22 DOI:10.31891/2079-1372-2023-108-2-28-36

V.P. Oleksandrenko, V.V. Yefymenko, N.G. Kalmykova, O.V. Efimenko, R.V. Budiak, Yu. M. Nelyubin

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Abstract

The purpose of this article is to study the possibility of using fullerene additives and their effect on the antiwear properties of aviation mineral and synthetic oils. The method of increasing the anti-wear properties of mineral MK-8p and synthetic Mobil Jet Oil 254 oil for turbojet aircraft engines by adding fullerene additive C60 is considered. It has been shown that the anti-wear properties of synthetic Mobil Jet Oil 254 oil for turbojet aircraft engines exceed MK-8p mineral oil by more than 10%. Increasing the concentration of fullerene additive in oils increases the wear resistance of conjugated surfaces. It was established that the increase in the concentration of the fullerene additive in oils shifts the critical load to higher values for both mineral and synthetic oils. The intensity of this growth is observed in mineral oil to a greater extent than in synthetic oil. The use of fullerenes as an anti-wear additive to oils for turbojet engines is proposed, which improves anti-friction properties and reduces the wear of parts of machines and mechanisms. Scientific progress is determined mainly by experimental research, the conduct of which in this direction is quite relevant.

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含富勒烯纳米添加剂的润滑材料的耐腐蚀性能

本文的目的是研究使用富勒烯添加剂的可能性及其对航空矿物油和合成油抗磨性能的影响。研究了通过添加富勒烯添加剂C60来提高MK-8p矿物油和Mobil Jet Oil 254合成油的抗磨性能的方法。研究表明，用于涡轮喷气发动机的合成美孚喷气机油254的抗磨性能超过MK-8p矿物油10%以上。提高油中富勒烯添加剂的浓度可以提高共轭表面的耐磨性。已经确定，油中富勒烯添加剂浓度的增加将矿物油和合成油的临界载荷转移到更高的值。在矿物油中观察到的这种生长强度比在合成油中更大。提出将富勒烯用作涡轮喷气发动机机油的抗磨添加剂，以提高抗磨性能并减少机器和机构零件的磨损。科学进步主要由实验研究决定，在这个方向上进行实验研究是非常相关的。

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

Problemi tribologii

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审稿时长

10 weeks