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This thesis investigates the tribological viability of bio-based base stock to which different nanoparticles were incorporated for engine piston-ring-cylinder-liner interaction. It determines experimentally the effects of lubricating oil conditions (new and engine-aged) on the friction and wear of the materials used for piston rings and cylinder liners. The specific base stock examined was a trimethylolpropane (TMP) ester derived from palm oil, and the nanoparticles were used as additives to obtain tribologically enhanced bio-based lubricants. The overall analysis of the results demonstrated the potential of nanoparticles to improve the tribological behavior of bio-based base stock for piston-ring-cylinder-liner interaction.
List of contents
Introduction.- Literature Review.- Research Methodology.- Results and Discussion.- Conclusions and Recommendations.
About the author
Dr. Mubashir Gulzar obtained his Mechanical Engineering degree (B.Sc), at NUST University, Pakistan, in 2009. He continued to pursue his M.Sc. in Engine Tribology from the same university and graduated as the first graduate of NUST School of Mechanical and Manufacturing Engineering in 2011. Dr. Gulzar completed his doctoral studies in Engine Tribology from University of Malaya, Malaysia, in 2017. He worked as faculty member at NUST College of Electrical and Mechanical Engineering, Pakistan (Jan 2012 to Feb 2018).
He is currently appointed as Assistant Professor at Mechanical Engineering Department, Khwaja Fareed University of Engineering and Information Technology, Rahim Yar Khan, Pakistan.
Dr. Gulzar is an active researcher, published more than 45 articles including 24 high impact ISI indexed publications. He is a reviewer of top ranked journals and member of national as well as international engineering councils/societies.
Summary
This thesis investigates the tribological viability of bio-based base stock to which different nanoparticles were incorporated for engine piston-ring–cylinder-liner interaction. It determines experimentally the effects of lubricating oil conditions (new and engine-aged) on the friction and wear of the materials used for piston rings and cylinder liners. The specific base stock examined was a trimethylolpropane (TMP) ester derived from palm oil, and the nanoparticles were used as additives to obtain tribologically enhanced bio-based lubricants. The overall analysis of the results demonstrated the potential of nanoparticles to improve the tribological behavior of bio-based base stock for piston-ring–cylinder-liner interaction.
