INFLUENCE OF DISPERSING OIL BY ABRASIVE NANO AND MICROPARTICLES ON THE FRICTION AND WEAR DURING SCRATCH TEST
Ali, A., A. H., Z., Ali, W., Atia, K. (2025). INFLUENCE OF DISPERSING OIL BY ABRASIVE NANO AND MICROPARTICLES ON THE FRICTION AND WEAR DURING SCRATCH TEST. EKB Journal Management System, 22(2), 71-79. doi: 10.21608/jest.2025.423522
A. S. Ali; Zeinab A. H.; W. Y. Ali; K. M. Atia. "INFLUENCE OF DISPERSING OIL BY ABRASIVE NANO AND MICROPARTICLES ON THE FRICTION AND WEAR DURING SCRATCH TEST". EKB Journal Management System, 22, 2, 2025, 71-79. doi: 10.21608/jest.2025.423522
Ali, A., A. H., Z., Ali, W., Atia, K. (2025). 'INFLUENCE OF DISPERSING OIL BY ABRASIVE NANO AND MICROPARTICLES ON THE FRICTION AND WEAR DURING SCRATCH TEST', EKB Journal Management System, 22(2), pp. 71-79. doi: 10.21608/jest.2025.423522
Ali, A., A. H., Z., Ali, W., Atia, K. INFLUENCE OF DISPERSING OIL BY ABRASIVE NANO AND MICROPARTICLES ON THE FRICTION AND WEAR DURING SCRATCH TEST. EKB Journal Management System, 2025; 22(2): 71-79. doi: 10.21608/jest.2025.423522

INFLUENCE OF DISPERSING OIL BY ABRASIVE NANO AND MICROPARTICLES ON THE FRICTION AND WEAR DURING SCRATCH TEST

Journal of the Egyptian Society of Tribology
Volume 22, Issue 2, April 2025, Pages 71-79    PDF (529.55 K)
DOI: 10.21608/jest.2025.423522
Authors
A. S. Ali1; Zeinab A. H.2; W. Y. Ali2; K. M. Atia2
1Mechanical Engineering Dept., Faculty of Engineering, Suez Canal University, EGYPT,
2Department of Production Engineering and Mechanical Design, Faculty of Engineering, Minia University, Minia 61111, EGYPT.
Abstract
The present study discusses the influence of dispersing lubricating oil by aluminium oxide (Al2O3), silicon oxide (SiO2) and silicon carbide (SiC) nano and microparticles on the friction coefficient and wear displayed by the scratch of copper sheet.
 
The experimental results showed that clean oil showed the highest friction coefficient and wear values followed by oil dispersed by nano and microparticles of SiO2, Al2O3 and SiC. As the normal load increased, friction coefficient and wear remarkably increased. The reduction of both wear and friction coefficient observed for dispersed oil with the tested nano and microparticles may be from the embedment of nano and microparticles in the surface of substrate and forming a protective layer on the substrate. It was observed that nanoparticles showed higher friction and wear values than that detected for microparticles due to their agglomeration in the contact area and increasing the shear stress between the stylus and substrate as well as the particles themselves. Besides, nanoparticles polish the asperities of the scratched substrate.
Keywords
Micro and nanoparticles; aluminium oxide; silicon oxide; silicon carbide; scratch; friction coefficient and wear
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