Characterization Of Brake Pad Friction Materials

Due to health-related problems as well as the requirements for better quality products, many material formulations for high performance asbestos-free materials are being introduced in Light Rail Transit (LRT) brake pads. This paper reports four new formulations of brake friction materials, which are...

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Bibliographic Details
Main Authors: Darius, G S, Berhan, M N, David, N V, Shahrul, A A, Zaki, M B
Format: Conference Proceeding
Language:English
Subjects:
Aluminum oxide
Asbestos
Barium
Brake forming
Brake presses
Braking systems
Ceramic fibers
Electron micrographs
Formulations
Friction
Iron oxides
Magnesium oxide
Mechanical properties
Morphology
Organic fibers
Physical properties
Rail transportation
Rubber
Specific gravity
Steel fibers
Superconductors (materials)
Wear
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Summary:Due to health-related problems as well as the requirements for better quality products, many material formulations for high performance asbestos-free materials are being introduced in Light Rail Transit (LRT) brake pads. This paper reports four new formulations of brake friction materials, which are made using the following ingredients: Resin, Iron oxide, Steel fiber, Ceramic fiber, Organic fiber, Magnesium Oxide, Aluminium Oxide, Barium, Sulphur, Graphite, Rubber, Novacite, Nipol and friction dust. Values of Hardness, Specific Gravity and Transverse Rupture strengths of these formulations are reported. The friction and wear test results of these formulations viz., A, B, C and D are included. The effects of physical properties, mechanical properties and morphology of the formulations on their friction and wear behavior are discussed. Scanning Electron Micrographs (SEM) and EDAX analysis of a formulation is included. It is found from the analysis that formulation B possesses better friction and wear properties compared to the other three formulations.
ISSN:1746-4471
1743-3533
DOI:10.2495/MC050051