4.7 Article

Comparative evaluation of chemically modified Jatropha oils as sustainable biolubricants in boundary lubrication regime

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TRIBOLOGY INTERNATIONAL
卷 186, 期 -, 页码 -

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ELSEVIER SCI LTD
DOI: 10.1016/j.triboint.2023.108594

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Biolubricant; Epoxidation; Estolide; Wear

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Petroleum lubricants have negative impacts on the environment and are not biodegradable. Plant-derived oils are renewable and can be used as biolubricants. This study aimed to enhance the oxidative stability of Jatropha curcas oil (JCO) through various chemical modifications. The functional groups and molecular structure of the modified oils were determined using spectroscopic techniques, and their physiochemical, thermal, rheological, and oxidative stability properties were assessed. Tribological tests showed that estolides and epoxidized Jatropha significantly reduced friction, making them potential biolubricants.
Petroleum lubricants are toxic to the environment and non-biodegradable. The oils extracted from the plants are renewable and could be used as biolubricants. Jatropha curcas oil (JCO) is one such promising biolubricant, whose application is limited due to poor oxidative stability. In this research, JCO is subjected to different chemical modifications viz. transesterification, epoxidation, estolide formation and partial hydrogenation. The functional groups and molecular structure of oils are determined by gas chromatography, Fourier transform infrared and nuclear magnetic resonance spectroscopic techniques. Physiochemical, thermal, rheological, oxidative stability properties are also assessed. A tribological study is conducted with different loads (50 N, 75 N and 100 N) and sliding frequencies (15 Hz and 30 Hz) in boundary lubrication regime with mating surfaces lubricated and the responses like frictional coefficient, surface roughness and wear scar diameter are measured. Under an identical condition, estolides and epoxidized Jatropha reduced the frictional force by about 58% and 57.1% with a corresponding reduction in frictional coefficient by 40% and 46%. Shallow grooves observed on the surfaces, lubricated with epoxide and estolide affirmed the tribological results. Preference selection index (PSI) technique ranked the epoxidized Jatropha atop as potential biolubricant over other chemically modified oils.

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