Title: The effect of wollastonite silane-treatment on mechanical and tribological performance of NAO brake-pads

Authors: May M.A. Abdel-Latif; Nabil S.M. El-Tayeb; Vishal Mahale; Jayashree Bijwe

Addresses: FESTO Authorised and Certified Training Centre (FACT Centre), Nile University (NU), Sheikh Zayed, Giza, Egypt ' Mechanical Engineering Department, The British University in Egypt (BUE), Shrouk City, Cairo, Egypt ' Industrial Tribology Machine Dynamics and Maintenance Engineering Centre (ITMMEC), Indian Institute of Technology Delhi (IIT-D), New Delhi, India ' Industrial Tribology Machine Dynamics and Maintenance Engineering Centre (ITMMEC), Indian Institute of Technology Delhi (IIT-D), New Delhi, India

Abstract: The current study aims to investigate the effect of silane-treatment of wollastonite on the mechanical, tribological performance of non-asbestos organic frictional brake-pad material. Two main friction lining specimens in the shape of brake-pads containing treated wollastonite (Wt) and untreated wollastonite (Wu) were produced to carry on the experiments. All produced samples were characterised and examined for their mechanical, chemical and tribological properties. The experimental results show that all parameters of tribological performance are within the acceptable standard range and that the tribological performance for all samples is almost the same in terms of friction coefficient and fade performance. Regarding wear, recovery performance and disc temperature rise (DTR), Wt samples offer better performance than Wu samples which was attributed to the good adhesion between wollastonite and the polymeric matrix after treatment. Moreover, scanning electron microscopy analysis is done on the tested samples and show overall improved surface of Wt than Wu. Finally, for full use of wollastonite silane-treatment advantages, it is recommended to be used in vehicles with less severe operating conditions such as motorbike and alike.

Keywords: brake materials; non-asbestos organic; NAO; frictional materials; non-asbestos organic materials.

DOI: 10.1504/IJSURFSE.2019.103936

International Journal of Surface Science and Engineering, 2019 Vol.13 No.4, pp.293 - 316

Received: 05 Jan 2019
Accepted: 15 May 2019

Published online: 02 Dec 2019 *

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