Abstract
This paper presents the results of studies on the influence of automotive vehicle parking time on levels of the friction coefficient and wear that influence the braking efficiency of brake systems with composite discs. Discs have been produced of hypereutectic aluminium-silicon alloy (AlSi18NiMgCu) in which the Si precipitates are a reinforcing phase. On the basis of the parking time of a vehicle for a repair, the minimal (τ = 0 h) and maximal (τ = 240 h) time for an exposition on atmospheric factors has been determined, Velocities, unit pressures of brake pad on the disc rotor, and the braking distance are the equivalent of a braking distance of an vehicle with mass of 1300kg running through an built-up area with a velocity of 30 or 50 kmh. On the basis of experiment’s results, it has been stated that a car parking time of 48h causes an oxidising of the matrix, which results in a friction coefficient decrease up to 0.18 on the sliding distance of 600–700 m, As a result of the wear of the oxide layer, the friction coefficient acquired a value (>0.3) after about 600–700 m friction distance, which equals 600 rotations of the wheel. A longer parking time (240 h) causes a considerably lower decrease in friction forces, because the oxide layer will be sealed.
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