Heat abstraction from contact zone of working elements of disc brake

• Autorzy: Osenin Y.Y. , Sosnov I. , Sergienko O. , Biloborodova I.

Warianty tytułu

RU

Оtvod teploty s zony kontakta rabochikh ehlementov diskovogo tormoza

• Języki publikacji: EN

Abstrakty

EN

RU

Słowa kluczowe

EN

disk brake; friction coefficient; braking; effectiveness; mechanical braking; cooling system; locomotive disk brake; experimental research; theoretical research

• Wydawca: -
• Czasopismo: Teka Komisji Motoryzacji i Energetyki Rolnictwa
• Rocznik: 2014
• Tom: 14
• Numer: 2
• Opis fizyczny: p.79-85,fig.,ref.

Twórcy

autor

Osenin Y.Y.

• Volodymyr Dahl East-Ukrainian National University, Molodizhny bl., 20а, Lugansk, 91034, Ukraine

autor

Sosnov I.

• Volodymyr Dahl East-Ukrainian National University, Molodizhny bl., 20а, Lugansk, 91034, Ukraine

autor

Sergienko O.

• Volodymyr Dahl East-Ukrainian National University, Molodizhny bl., 20а, Lugansk, 91034, Ukraine

autor

Biloborodova I.

• Volodymyr Dahl East-Ukrainian National University, Molodizhny bl., 20а, Lugansk, 91034, Ukraine

Bibliografia

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• 2. Bahrami M., Culham J.R., Yovanovich M.M., 2004.: Thermal Contact Resistance of Nonconforming Rough Surfaces. Journal of Thermophysics and Heat Transfer, V. 18, Part 2, 218 – 227.
• 3. Beloborodova I.M., 2008.: Evaluation of the ability of the locomotive brake disc to dissipate heat. Vysnik of Volodymyr Dahl East Ukrainian National University, V. 8 (126), 190-197. – (in Ukrainian).
• 4. Beloborodova I.M., Osenin Y.I., Sosnov I.I., 2010.: Cooling system of disc brake of vehicle. Patent for the useful model 48518, Application 20.08.2009, Date of publishing 25.03.2010, Bull. 6. – (in Ukrainian).
• 5. Beloborodova I.M., Sosnov I.I., 2009.: Modelling of heat exchange between locomotive disc brake and environment. Vysnik of Volodymyr Dahl East Ukrainian National University, V.7, 13-20. – (in Ukrainian).
• 6. Beloborodova I.M., Osenin Y.I., Sosnov I.I., 2010.: Modelling of cooling system of locomotive disc brake. Vysnik of Volodymyr Dahl East Ukrainian National University, V. 3 (145), 292-306. – (in Ukrainian).
• 7. Beloborodova I.M., Sosnov I.I., 2009.: Coefficient of heat transfer of locomotive disc brake. Vysnik of Volodymyr Dahl East Ukrainian National University, V.9, 219-226. – (in Ukrainian).
• 8. Beloborodova I.M. Osenin Y.I., Sosnov I.I., 2009.: Evaluation of main thermotechnical parameters of cooling system of locomotive disc brake. Vysnik of Dnipropetrovsk National University of Railway Transport named after V. Lazaryan, – V. 28, 7-12. – (in Ukrainian).
• 9. Bogdanovich P.N., Tkachuk D.V., 2006.: Temperature Distribution over Contact Area and «Hot Spots» in Rubbing Solid Contact. Tribology International, V. 39, Part 11, 1355 –1360.
• 10. Coulson J.M., Richardson J.F., Backhurst J.R., Harker J.H., 1999.: Fluid Flow, Heat Transfer and Mass Transfer. Coulson & Richardson’s Chemical Engineering, 6th edition, Butterworth–Heinemann, Vol. 1, 895.
• 11. Ehlers H.-R. et al., 2002.: Potential and limits of opportunities of the block brake, Glasers Annalen, V. 6/7, 290-300.
• 12. Inozemtsev V., Kazarinov V., Yasentsev V., 1981.: Automatic brakes, Transport, Moscow, 464. – (in Russian).
• 13. Kreith F., 1988.: Convective Heat Transfer in Rotating Systems. Advances in Heat Transfer, Academic Press, V. 5, 347.
• 14. Krylov V.I., Krylov V.V., Efremov V.N., Demushkin P.T., 1989.: Reference book: Brake equipment of the rolling stock. Мoscow, Transport, 487. – (in Russian).
• 15. Pogrebnova N., 2012.: Estimation of frictional properties of the disc brake working elements in order to increase efficiency of brake systems of the rolling stock. TEKA Commission of Motorization and Power Industry in Agriculture, Lublin, Polska Akademia nauk Oddzial w Lubline, V. ХII, Part 4, 218 - 223.
• 16. Schlosser W., Aurich S., 2001.: Modern brake systems. Glasers Annalen, V. 8, 273 –277.
• 17. Shevchuk I.V., 2009.: Convective Heat and Mass Transfer in Rotating Disk Systems. Stuttgart, Springer, 236.
• 18. Starchenko V., Kushchenko A., 2010.: Investigation of influence of frictional materials characteristics of brake blocks of railway transport on their functional thermal state. TEKA Commission of Motorization and Agriculture, Liblin, Polska Akademia nauk Oddzial w Lubline, Vol. XB, 285 – 289.
• 19. Starchenko V. N., Gurin V. A., Bikodorov V. P., Shapran E. N., 2006.: Frictional materials on the base of carbon-asbestos fibres for brake devices. Railways of the world, Part 2. [electronic resource] – regime of access: http://www.css-rzd.ru/ZDM/2006-02/06008- 1.htm. – (in Russian).
• 20. Wukolov L. A., Zharov V. A., 2005.: Comparative characteristic of brake blocks of different suppliers. Vestnik VNIIZT, V. 2, 16– 20. – (in Russian).