An evaluation method of heat convection from brake discs using analytical and experimental approaches is described. Brake discs may be wheel or axle mounted and either ventilated or solid. The majority of brake discs are the ventilated type because of the cooling effect of the fins. In this study, the cooling efficiency of ventilated discs was investigated through the basic equation for heat convection, brake tests and measurements of the flow volume through the fins. It is concluded that a cooling rate parameter alpha (= (heat convection x convection area)/(specific heat x disc mass)) derived from the basic equation for heat convection can express the cooling efficiency of a disc. The parameter alpha can also be used to estimate the maximum temperature accumulated in a disc after several cycles of braking to a stop. As for the design of the brake discs, the heat convection area is more important than the thickness or number of fins. Also the air velocity through the fins should be taken into consideration.
Heat convection and design of brake discs
Wärmeübertragung und Gestaltung von Scheibenbremsen
2004
10 Seiten, 17 Quellen
Article (Journal)
English
spezifische Wärme , Kühlrippe , Wärmeübergangskoeffizient , Reynolds-Zahl , Wärmeleitfähigkeit , Parameterschätzung , Bremsscheibe , Scheibenkühlung , Scheibenbremse , Lokomotive , analytische Untersuchung , experimentelle Untersuchung , Luftkühlung , Kühlluftgeschwindigkeit , Abkühlungsgeschwindigkeit , Betriebstemperatur , Höchstwert , Kühlleistung
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