Ibrahim Metinöz scite author profile

Airborne particulate matter emitted from motor vehicle brakes is a contributor to urban air quality. Therefore, a method to rank brake pairs (pads and rotors) with respect to their particle emission factors in a reliable way is needed to develop a low-emission disc brake. A novel inertial disc brake dynamometer designed for brake particle emission studies, a modified SAE J 2707 cycle, an electrical low-pressure cascade impactor and a filter are used to test five different pad materials against cast-iron rotors. By changing only the pad materials, it is shown that the differences between the mass emission factor and the number emission factor of the the worst brake pair and those of the best brake pair decreases by more than four times and 19 times respectively. Furthermore, the results show that the material combination ranked the best in terms of the mass emission factor is ranked the worst in terms of the number emission factor. The results reveal that this combination of a test stand, a test cycle and particle instruments can discriminate between different brake pair materials in a reliable way in the case of the mass emission factors while more research has to be carried out in the case of the number emission factors.

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A Study on Emission of Airborne Wear Particles from Car Brake Friction Pairs

Alemani

Nosko

Metinöz

et al. 2015

SAE Int. J. Mater. Manf.

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A concept for reducing PM 10 emissions for car brakes by 50%

Perricone

Matějka

Alemani

et al. 2018

Wear

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Wear behavior of a low metallic friction material dry sliding against a cast iron disc: Role of the heat-treatment of the disc

Straffelini

Verma

Metinöz

et al. 2016

Wear

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Dry sliding of a low steel friction material against cast iron at different loads: Characterization of the friction layer and wear debris

Alemani

Gialanella

Straffelini

et al. 2017

Wear

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