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A new tribological approach for lubricated sliding contact of pitted metallic curvature cup

Razak, D. M. and Samion, S. and Noorawzi, N. and Azli, Y. (2016) A new tribological approach for lubricated sliding contact of pitted metallic curvature cup. Tribology Transactions, 59 (5). pp. 876-882. ISSN 1040-2004

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Abstract

Interest in the development and application of plant-based lubricants for medical use is increasing. This study investigates palm oil lubricants as environmentally friendly and renewable resources to optimize the motion in an ergonomic simulated metal hip prosthesis with modification to the acetabular cup surface. Although metal hip replacements are extensively used, minimizing metal-on-metal friction and wear using safe lubricants requires further investigation. The main physical properties of palm kernel oil and palm fatty acid distillate are considered. The viscosity, wear scar, and coefficient of friction are compared to hyaluronic acid. A modified pin-on-disc tribometer simulates friction and wear on a 28-mm-diameter acetabular cup and microscopy image analysis is used to examine the wear scar. The physical properties of palm oil derivatives reduce friction and wear. In brief, the most significant results of this study include the effect of lubricant and number of pits on wear and friction coefficient. The contribution of this research work is to maintain stability and increase the lifetime of ergonomic metal hip implants.

Item Type:Article
Uncontrolled Keywords:Ergonomics, Fatty acids, Friction, Hip prostheses, Hyaluronic acid, Lubricants, Metals, Oil shale, Physical properties, Tribology, Wear of materials, Coefficient of frictions, Development and applications, Lubricated sliding contact, Metal-on-metal, Metal-on-metal friction, Microscopy image analysis, Palm fatty acid distillate, pits, Palm oil
Subjects:T Technology > TJ Mechanical engineering and machinery
Divisions:Mechanical Engineering
ID Code:72101
Deposited By: Fazli Masari
Deposited On:21 Nov 2017 03:28
Last Modified:21 Nov 2017 03:28

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