Study on Tribological Behaviour of ZnO Nano Additives Suspended in SAE 20W-50 Engine Oil

Sherif Elsoudy, Sayed Y. Akl, A. Abdel‐Rehim, S. Salem
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Abstract

In internal combustion engines, significant power losses are directly related to the mechanical friction of engine parts. Therefore, controlling tribological performance for engine lubricants has a major role in limiting those losses. In this study, the tribological properties of traditional engine oil with nano ZnO and oleic acid (OA) as a surfactant have been analyzed. Three different concentrations of 0.2, 0.5 and 1 wt.% were investigated using a pin-on-disc tribometer, according to ASTM G-99 with boundary/mixed lubrication regimes. The generated friction and wear characteristics revealed a remarkable reduction in friction coefficient with a range of 8–10%. Analysis of SEM and EDX was conducted on the worn surfaces. Additionally, the colloidal stability of nano dispersion was performed through sedimentation, FTIR, and Zeta analyses.
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ZnO纳米添加剂在SAE 20W-50发动机润滑油中的摩擦学行为研究
在内燃机中,显著的功率损失与发动机部件的机械摩擦直接相关。因此,控制发动机润滑油的摩擦学性能对限制这些损失具有重要作用。研究了以纳米氧化锌和油酸为表面活性剂的传统发动机油的摩擦学性能。根据ASTM G-99标准,在边界/混合润滑条件下,使用针盘式摩擦计研究了三种不同浓度的0.2、0.5和1 wt.%。产生的摩擦和磨损特性显示摩擦系数显著降低,范围为8-10%。对磨损表面进行了SEM和EDX分析。此外,通过沉淀、FTIR和Zeta分析考察了纳米分散体的胶体稳定性。
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