Tribological properties of surface-functionalized Zr-based MOF as a lubricant additive
Chenxia Wang, Chenxia Wang, Mingan Zhou, Hao Cao, Wei Li, Yuze Mao, Chenchen Wang, Chenchen Wang, Hualin Lin, Sheng Han
Abstract
The development of novel high-performance lubricants is of great significance to reduce energy consumption and save energy. Herein, we report a zirconium-based MOF functionalized with tetradecylphosphonic acid (TDPA-Zr-MOF), as a lubricant additive in soybean oil (SO). The tribological properties of TDPA-Zr-MOF were systematically measured by a four-ball test machine, which showed that soybean oil with TDPA-Zr-MOF exhibit better tribological properties compared with pure soybean oil. The friction coefficient and wear scar diameter are significantly reduced, both of which can be decreased by more than 35%. Based on the analysis of morphology and chemical composition of the worn surface, it is concluded that the excellent anti-friction and anti-wear properties of TDPA-Zr-MOF attributed to rolling effect and protective film effect.