Mustabshirha Gul, Md. Abul Kalam, Nurin Wahidah Mohd Zulkifli, Masjuki Hj. Hassan, Md. Mujtaba Abbas, Sumra Yousuf, Omar Sabah Al-Dahiree, Md. Kamaleldin Gaffar Abbas, Waqar Ahmed and Shahab Imran
The purpose of this study is to improve the tribological characteristics of cotton-biolubricant by adding nanoparticles at extreme pressure (EP) conditions in comparison with…
Abstract
Purpose
The purpose of this study is to improve the tribological characteristics of cotton-biolubricant by adding nanoparticles at extreme pressure (EP) conditions in comparison with commercial lubricant SAE-40.
Design/methodology/approach
This research involved the synthesis of cotton-biolubricant by transesterification process and then the addition of nanoparticles in it to improve anti wear (AW)/EP tribological behavior. SAE-40 was studied as a reference commercial lubricant. AW/EP characteristics of all samples were estimated by the four-ball tribo-tester according to the American Society for Testing and Materials D2783 standard.
Findings
The addition of 1-Wt.% TiO2 and Al2O3 with oleic acid surfactant in cotton-biolubricant decreased wear scar diameter effectively and enhanced the lubricity, load-wear-index, weld-load and flash-temperature-parameters. This investigation revealed that cotton-biolubricant with TiO2 nano-particle additive is more effective and will help in developing new efficient biolubricant to replace petroleum-based lubricants.
Research limitations/implications
Cotton biolubricant with TiO2 nano-particles appeared as an optimistic solution for the global bio-lubricant market.
Originality/value
No one has not studied the cotton biolubricant with nanoparticles for internal combustion engine applications at high temperature and EP conditions.