Disc Brake Design with Carbon Friction Material-Reference-Cited by-同舟云学术

Disc Brake Design with Carbon Friction Material

Published:2023-02 Issue:1 Volume:44 Page:13-17
ISSN:1068-3666
Container-title:Journal of Friction and Wear
language:en
Short-container-title:J. Frict. Wear

Author:

Osenin Yu. I.,Krivosheya D. S.,Osenin Yu. Yu.,Chesnokov A. V.

Publisher

Allerton Press

Subject

Surfaces, Coatings and Films,Mechanics of Materials

Link

https://link.springer.com/content/pdf/10.3103/S1068366623010087.pdf

Reference15 articles.

1. Nilov, A.S., Kulik, V.I., and Garshin, A.P., Analysis of friction materials and manufacturing technologies for brake pads for highly loaded brake systems with ceramic composite discs, Nauch. Issled. Razrab., 2015, no. 7, pp. 57–68.

2. Chen, J. and Gao, F., Temperature field and thermal stress analyses of high-speed train brake disc under pad variations, Open Mech. Eng. J., 2015, vol. 9, pp. 371–378.

3. Gapanovich, V.A., Andreev, A.A., Pegov, D.V., et al., Vysokoskorostnoi zheleznodorozhnyi podvizhnoi sostav (High-Speed Rail Rolling Stock), Gapanovich, V.A., Ed., St. Petersburg: NP-Print, 2014.

4. Vorob’ev, A.A., Kulik, V.I., Nilov, A.S., and Spiryugova, M.A., Promising technologies for the production of brake discs from ceramic matrix composites based on the SiC matrix of braking systems for high-speed rail transport, Izv. SPb Univ. Putei Soobshch., 2020, no. 2, pp. 210–220. https://doi.org/10.20295/1815-588X-2020-2-210-220

5. Vodyannikov, Yu.Ya., Safronov, A.N., and Sheleiko, T.V., Effect of temperature on the friction coefficient of a composite pad, Visn. SNU im. v. Dalya, 2012, no. 5 (176), part 1, pp. 50–55.

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