ISSN   1004-0595

CN  62-1095/O4

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纳米金刚石颗粒对发动机润滑油摩擦学特性的影响[J]. 摩擦学学报, 2002, 22(1): 44-48.
引用本文: 纳米金刚石颗粒对发动机润滑油摩擦学特性的影响[J]. 摩擦学学报, 2002, 22(1): 44-48.
Effect of Ultra-Dispersed Diamond Nanoparticles as Additive on the Tribological Properties of 15W/30 Engine Oil[J]. TRIBOLOGY, 2002, 22(1): 44-48.
Citation: Effect of Ultra-Dispersed Diamond Nanoparticles as Additive on the Tribological Properties of 15W/30 Engine Oil[J]. TRIBOLOGY, 2002, 22(1): 44-48.

纳米金刚石颗粒对发动机润滑油摩擦学特性的影响

Effect of Ultra-Dispersed Diamond Nanoparticles as Additive on the Tribological Properties of 15W/30 Engine Oil

  • 摘要: 采用爆炸法合成了超精细金刚石颗粒 ,将金刚石颗粒按一定质量分数分散于普通发动机润滑油 (15W/30 )中形成固 -液二相体系 ,考察了其摩擦学特性 ,并分析了润滑剂的减摩抗磨作用机理 .结果表明 ,在边界润滑条件下 ,由于纳米尺寸效应 ,超精细金刚石颗粒较易渗透到摩擦副表面并形成极薄的固体润滑膜 ,从而使得金刚石颗粒 /发动机润滑油固 -液二相体系表现出优异的承载能力和减摩抗磨性能

     

    Abstract: Diamond nanoparticles were prepared by detonation of explosives with negative oxygen balance. The effect of the diamond nanoparticles as additive on the tribological behavior of 15W/30 engine oil was examined by means of bench test of cylinder liner/piston ring and ball-on-disc friction and wear test, respectively. The action mechanism of the diamond nanoparticles is discussed as well. As the results, the diamond nanoparticle as additive has little effect on the physical-chemical properties of the base stock but improves the tribological behavior of the base stock considerably. Namely, the load-carrying capacity and friction-reducing and antiwear ability of the 15W/30 engine oil were greatly increased by the addition of the diamond nanoparticles. This could be attributed to the formation of a boundary lubricating film containing diamond nanoparticles on the rubbing surface. In other words, the diamond nanoparticles act to increase the load-carrying capacity and decrease the wear of the frictional pair considerably, because they have high hardness and are liable to deposit on the rubbing surface owing to their small-scale effect. Such a kind of wear-resistant and load-carrying capacity of the diamond nanoparticles as additive could be confirmed by the increase of the worn surface hardness.

     

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