Tribological properties of polyol ester – commercial motorbike engine oil blends

This current study investigates the effect of blending bio-lubricant with commercial lubricant on physico-chemical and tribological properties. The synthesis of TMP and PE ester are optimized to obtain 100% long chain tetra-esters and extreme care was taken during preparation of bio-lubricant to les...

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Bibliographic Details
Published in:Journal of King Saud University. Engineering sciences 2022-01, Vol.34 (1), p.57-66
Main Authors: Srinivas, V., Chebattina, Kodanda Rama Rao, Pranay, G.V.S., Lakkoju, Babi, Vandana, V.
Format: Article
Language:English
Subjects:
Bio-lubricant
Commercial engine oil
Metallographic studies
PE ester
TMP ester
Tribological properties
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Summary:This current study investigates the effect of blending bio-lubricant with commercial lubricant on physico-chemical and tribological properties. The synthesis of TMP and PE ester are optimized to obtain 100% long chain tetra-esters and extreme care was taken during preparation of bio-lubricant to lessen deterioration of physio-chemical properties by blending with commercial oil. SM grade commercial petrol engine oil was blended with Tri-methylolpropane (TMP) ester, Penta-erythritol (PE) ester derived from Calophyllum-inophyllum in 10, 15, 20 and 25% v/v. The tests for anti-wear, anti-friction and extreme pressure properties are conducted on the sample oils on a four-ball wear tester. The friction coefficient and wear of bio-lubricant – commercial oil blends have decreased significantly up to 20% blending percentage. In the extreme pressure test, there is a substantial improvement in the weld load and marked improvement in the load wear index signifying the better load-bearing capacity of commercial oil – bio-lubricant blends. A synergy between bio-lubricant and additives in the commercial oil was found from a metallographic examination of worn balls after the EP test. The optimum volume percent of blend was found to be 15% PE blend and 10% TMP blend for optimum overall performance.
ISSN:1018-3639
1018-3639
DOI:10.1016/j.jksues.2020.07.016