ABRASIVE WEAR RESISTANCE OF DENTURE BASE
El-Shazly, M., Aly, M., S. F., E., Ali, W., Ali, A. (2025). ABRASIVE WEAR RESISTANCE OF DENTURE BASE. EKB Journal Management System, 22(3), 1-11. doi: 10.21608/jest.2025.385484.1119
M. H. El-Shazly; M. S. Aly; Esraa S. F.; W. Y. Ali; A. S. Ali. "ABRASIVE WEAR RESISTANCE OF DENTURE BASE". EKB Journal Management System, 22, 3, 2025, 1-11. doi: 10.21608/jest.2025.385484.1119
El-Shazly, M., Aly, M., S. F., E., Ali, W., Ali, A. (2025). 'ABRASIVE WEAR RESISTANCE OF DENTURE BASE', EKB Journal Management System, 22(3), pp. 1-11. doi: 10.21608/jest.2025.385484.1119
El-Shazly, M., Aly, M., S. F., E., Ali, W., Ali, A. ABRASIVE WEAR RESISTANCE OF DENTURE BASE. EKB Journal Management System, 2025; 22(3): 1-11. doi: 10.21608/jest.2025.385484.1119

ABRASIVE WEAR RESISTANCE OF DENTURE BASE

Journal of the Egyptian Society of Tribology
Volume 22, Issue 3, July 2025, Page 1-11  XML PDF (615.13 K)
Document Type: Original Article
DOI: 10.21608/jest.2025.385484.1119
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Authors
M. H. El-Shazly email orcid 1; M. S. Aly2; Esraa S. F.3; W. Y. Ali4; A. S. Ali5
1Department of Mechanical Design, Faculty of Engineering, Cairo University, Giza, Egypt
2Galaa Teaching Hospital.
3Endodontic department, Faculty of Dentistry, Sinai university.
4Department of Production Engineering and Mechanical Design, Faculty of Engineering, Minia University, El-Minia.
5Mechanical Engineering Dept., Faculty of Engineering, Suez Canal University, EGYPT.
Abstract
The present work aims to investigate the abrasive wear resistance of polymethyl methacrylate (PMMA) denture base. Experiments were conducted by sliding PMMA against stainless steel and composite resin at fresh and salt water wetted condition. Microparticles of sand (SiO2) of (5 – 10), (15 – 20), (20 – 30) and (25 – 50) µm size were applied as abrasive contaminants of 1.0 wt. % content.  Normal load of 5.0 N was applied at reciprocating sliding for 600 seconds. Friction coefficient, wear and voltage difference between the two sliding surfaces were determined.
 
It was found that fresh and salt water contaminated by sand particles displayed higher friction, voltage and wear. Friction and voltage values increased up to maximum then decreased with increasing sand particle size. It can be noticed that the tendency of sand particles to roll or embed in the two sliding surfaces controlled the values of friction, wear and voltage. Sliding of composite resin on PMMA showed higher wear values for PMMA than sliding of SS on PMMA. In the presence of salt water, friction and wear as well as the generated voltage recorded higher values than that observed for fresh water. This behavior may be attributed to the relatively better electrical conductivity of salt water that increased the adhesive force between the two sliding surfaces due to the electric force induced by voltage generated from friction.
Keywords
Polymethyl methacrylate; composites resin; abrasive wear resistance; sand microparticles; fresh; salt water
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