Abstract
In metal-forming processes, the use of lubricants for providing desirable tribological conditions at the tool–workpiece interface is critical to increase the material formability and prolonging tool life. Nowadays, the depletion of crude oil reserves in the world and the global concern in protecting the environment from contamination have renewed interest in developing environmentally-friendly lubricants derived from alternative sources such as vegetable oils. In the present study, the rheological and tribological behavior of coconut oil modified with nanoparticle additives was experimentally evaluated. Two different nanoparticle additives were investigated: Silicon dioxide (SiO2) and copper oxide (CuO). For the two conditions, nanoparticles were dispersed at different concentrations within the coconut oil. The effects of concentration and shear rate on the viscosity were evaluated and the experimental data was compared with conventional models. A custom-made tribotester was used to evaluate the effect of concentration on the tribological performance of the nano-lubricants. The experimental results showed that wear volume loss was lowered by 37% and 33% using SiO2 and CuO nanoparticles, respectively. Furthermore, the addition of SiO2 and CuO nanoparticles decreased the coefficient of friction (COF) by 93.75% and 93.25%, respectively, as compared to coconut oil without nanoparticles.
Highlights
Due to environmental issues, there has been a growing concern regarding the use of mineral oils as lubricants
Vegetable oils possess many sought out properties such as good lubrication in contact area, high flash point, high biodegradability, and low volatility [1,2,3,4]
The objective objective of of this this study study was and tribological tribological behaviors behaviors of of coconut coconut oil by the the addition additionof ofSiO
Summary
Due to environmental issues, there has been a growing concern regarding the use of mineral oils as lubricants. Vegetable oils possess many sought out properties such as good lubrication in contact area, high flash point, high biodegradability, and low volatility [1,2,3,4]. Nanoparticles have been used as friction modifiers due to their extremely small size, which allows them to slide into the two metals’ contact area. The addition of nanoparticles helps with the wear and friction properties. Silica and oxide oxide nanoparticles are efficient at room temperature, no no induction period is needed to see improvement in tribological properties. SiO helped lower wear and friction when compared to the base paraffin [7].
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