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Development and tribological studies of a novel metal‐ceramic hybrid brake disc

Thorsten Opel, Nico Langhof, Walter Krenkel

2021International Journal of Applied Ceramic Technology20 citationsDOIOpen Access PDF

Abstract

Abstract Ceramic matrix composite (CMC) friction materials show promising tribological properties. Typically, carbon ceramic brake discs consist of a C/SiC rotor which is joined to a brake disc bell. Within this work, a novel metal‐ceramic hybrid brake disc, consisting of C/SiC friction segments which are mounted by screws onto an aluminum carrier body, was designed and investigated. A prototype was built which was tribologically tested with three different brake pad materials, LowMet reference, modified SF C/SiC as well as C/C. A constant starting sliding velocity of 20 m/s and braking pressures of 1, 2, and 3 MPa were investigated. To simulate emergency braking conditions 10 consecutive brake applications were carried out in close succession for each brake pad material and braking pressure. The C/C brake pad material showed the highest average coefficient of friction followed by the LowMet and C/SiC material. However, the wear rates of the C/C and LowMet material were orders of magnitude higher compared to the C/SiC material.

Topics & Concepts

Materials scienceBrake padCeramicBrakeTribologyComposite materialDisc brakeCast ironMetal matrix compositeComposite numberMetallurgyBrake Systems and Friction AnalysisTribology and Wear AnalysisMagnesium Alloys: Properties and Applications
Development and tribological studies of a novel metal‐ceramic hybrid brake disc | Litcius