PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Electromagnetic system for improving the adhesion of wheels to rails

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article describes the design of a system used for the improvement of the adhesion of locomotive wheels to rails; the principle of which is based on the electromagnetic feeding of the contact area with the bulk material that has magnetic properties and high hardness (iron scale Fe3O4 and magnetite FeO×Fe2O3). The experimental results of laboratory and bench tests confirming the effectiveness of the proposed system compared with the existing devices using quartz sand to improve the adhesion of wheels to rails are presented. It is concluded that the use of an electromagnetic system for improving the particle supply to the wheel/rail interface is promising.
Słowa kluczowe
Czasopismo
Rocznik
Strony
59--67
Opis fizyczny
Bibliogr. 25 poz.
Twórcy
autor
  • Berdyansk University of Management and Business, 117-А Freedom, Berdyansk, 71118, Ukraine
  • Berdyansk University of Management and Business, 117-А Freedom, Berdyansk, 71118, Ukraine
autor
  • National Technical University "Kharkov Polytechnic Institute" 2 Kirpicheva, Kharkov, 61002, Ukraine
  • National Technical University "Kharkov Polytechnic Institute" 2 Kirpicheva, Kharkov, 61002, Ukraine
  • State Budget Institution of Higher Education of the Moscow Region "University of Technology" 42 Gagarina, Korolev, Moscow region, 141070, Russia
Bibliografia
  • 1. Olofsson, U. & Zhu, Y. & Abbasi, S. & Lewis, R., & Lewis, S. Tribology of the wheel-rail contact – aspects of wear, particle emission and adhesion. Vehicle System Dynamics. 2013. Vol. 51(7). P. 1091-1120. Special Issue: State of the art papers of the 23rd IAVSD Symposium.
  • 2. Cann, P.M. The ‘leaves on the line’ – a study of leaf residue film formation and lubricity under laboratory test conditions. Tribol. Lett. 2006. Vol. 24. P. 151-158.
  • 3. Li, Z. & Arias-Cuevas, O. & Lewis, R. & Gallardo-Hernandez, E.A. Rolling-sliding laboratory tests of friction modifiers in leaf con-taminated wheel-rail contacts. Tribol. Lett. 2009. Vol. 33. P. 97-109.
  • 4. Abbasi, S. & Olofsson, U. & Zhu, Y. & Sellgren, U. Pin-on-disc study of the effects of railway friction modifiers on airborne wear particles from wheel–rail contacts. Tribology International. 2013. Vol. 60. P. 136-139.
  • 5. Baek, K.S. & Kyogoku, K. & Nakahara, T. An experimental investigation of transient traction characteristics in rolling-sliding wheel/rail contacts under dry-wet conditions. Wear. 2007. Vol. 263. P. 169-179.
  • 6. Eadie, D.T. & Santoro, M & Kalousek, J. Railway noise and the effect of top of rail liquid friction modifiers: Changes in sound and vibration spectral distributions in curves. Wear. 2017. Vol. 258. P. 1148-1155.
  • 7. Steenbergen, M. Rolling contact fatigue: Spalling versus transverse fracture of rails. 2017. Wear. Vol. 380. P. 96-105.
  • 8. Kalousek, J. Keynote address: Light to heavy, snail to rocket. Wear. 2002. Vol. 253. P. 1-8. 9. Alarcón, G.I & Burgelman, N & Meza, J.M. & Toro, A. & Li, Z. Power dissipation modeling in wheel/rail contact: Effect of friction coefficient and profile quality. Wear. 2016. Vol. 366. P. 217-224.
  • 10. Baek, K.S. & Kyogoku, K. & Nakahara, T. An experimental study of transient traction characteristics between rail and wheel under low slip and low speed conditions. Wear. 2008. Vol. 265. P. 1417-1424.
  • 11. Arias-Cuevas, O & Li, Z. Field investigations into the performance of magnetic track brakes of an electrical multiple unit against slippery tracks. Part 2: Breaking force and side effects. Proc. Inst. Mech. Eng. (Part F J. Rail Rapid Transit vol. 226). 2011. P. 1-23.
  • 12. Arias-Cuevas, O. & Li, Z. & Lewis, R. Investigating the lubricity and electrical insulation caused by sanding in dry wheel-rail contacts. Tribol. Lett. 2010. Vol. 37. P. 623-635.
  • 13. Olofsson, U. & Lyu, Y. Open System Tribology in the Wheel-Rail Contact-A Literature Review. Applied Mechanics Reviews. 2017. Vol. 69. P. 1-10. doi:10.1115/1.4038229.
  • 14. Spiryagin, M. & Wolfs, P. & Cole, C. & Spiryagin, V. & Sun, Y. & McSweeney, T. Design and simulation of heavy haul locomotives and trains. Ground Vehicle Engineering Series. CRC Press. Taylor & Francis Group. USA. 2016.
  • 15. Cao, X. & Huang, W.L. & He, C.G. & Peng, J.F. & Guo, J. & Wang, W.J. & Liu, Q.Y. & Zhu, M.H. The effect of alumina particle on improving adhesion and wear damage of wheel/rail under wet conditions. Wear. 2015. Vol. 348. P. 98-115. doi:10.1016/j.wear.2015.12.004.
  • 16. Zhu, Y. & Chen, X. & Wang, W.J. & Yang, H. A study on iron oxides and surface roughness in dry and wet wheel-rail contacts. Wear. 2015. Vol. 328-329. P. 328-329. doi:10.1016/j.wear.2015.02.025.
  • 17. Осенин, Ю.И. & Соснов, И.И. Экспериментальное исследование сцепления колеса локомотива с рельсом при наличии в зоне контакта твердых частиц. Вісник Східноукраїнського національного університету. 2003. Т. 1. № 9. C. 41-45. [In Russian: Osenin, Y.I. & Sosnov, I.I. Experimental study of the adhesion of the locomotive wheel to the rail in the presence of solid particles in the contact zone. Bulletin of Shidnoukrainskiy National University. 2003. Vol. 1. No. 9. P. 41-45].
  • 18. Соснов, И.И. Экспериментальное исследование изнашивания пар трения–качения с проскальзыванием при наличии твердых частиц в зоне контакта. Вісник Східноукраїнського національного університету. 2004. № 5. C. 135–140. [In Russian: Sosnov, I.I. Experimental study of the wear of friction-rolling pairs with slip in the presence of solid particles in the contact zone. Bulletin of Shidnoukrainskiy National University. 2004. No. 5. P. 135-140].
  • 19. Козлов, А.А. Исследование намагниченности концов рельсов в изолирующих стыках разной конструкции. Вестник ВНИИЖТ. 2005. № 2. C. 36-40. [In Russian: Kozlov A.A. Investigation of the magnetization of the ends of the rails in the insulating joints of different designs. Vestnik VNIIZhT. 2005. No. 2. P. 36-40].
  • 20. Антонов, А.С. & Козлов, А.А. & Козлов, А.С. Намагниченность рельсов. Путь и путевое хозяйство. 2008. № 2. С. 6-8. [In Russian: Antonov, A.S. & Kozlov, A.A. & Kozlov, A.С. Magnetization of rails. Way and road economy. 2008. No. 2. P. 6-8].
  • 21. Смирный, М.Ф. & Бихдрикер, А.С. Определение оптимальных размеров головки записи устройства для взвешивания железнодорожных транспортных единиц. Вісн. Східноукр. нац. ун-ту ім. В. Даля. 2009. № 12. С. 119-125. [In Russian: Smirny, M.F. & Bihdriker, A.S. Determination of the optimum size of the head of the device for weighing railway transport units. Bulletin of Shidnoukrainskiy National University named after V. Dal. 2009. No. 12. P. 119-125].
  • 22. Wang, W.J. & Zhang, H.F. & Liu, Q.Y. & Zhu, M. & Jin, X. Investigation on adhesion characteristic of wheel/rail under the magnetic field condition. Proceedings of the Institution of Mechanical Engineers. Part J. Journal of Engineering Tribology. 2015. Vol. 230. doi:10.1177/1350650115606480.
  • 23. Осенін, Ю.І. & Соснов, І.І. & Осенін, Ю.Ю. Пристрій для поліпшення зчеплення колеса з рейкою. Патент на корисну модель № 123244. Україна. Опубл.: 26.02.2018. Бюл. № 4. [In Ukrainian: Osenin, Yu.I. & Sosnov, I.I. & Osenin, Yu.Yu. A device for improving the adhesion of the wheel with a rail. Patent for Utility Model No. 123244. Ukraine. Published: 02/26/2018. Bul. No. 4].
  • 24. Старченко, В.Н. К вопросу о трении и сцеплении при взаимодействии колеса с рельсом. Вісн. Східноукр. нац. ун–ту. Луганськ. 2003. № 9. С. 129-135. [In Russian: Starchenko V.N. On the question of friction and adhesion in the interaction of a wheel with a rail. Bulletin of Shidnoukrainskiy National University – Lugansk. 2003. No. 9. P. 129-135].
  • 25. Исаев, И.П. & Голубенко, А.Л. Совершенствование экспериментальных исследований сцепления колеса локомотива с рельсом. Железные дороги мира. 1983. № 10. С. 20-24. [In Russian: Isaev, I.P. & Golubenko, A.L. Improving experimental studies of the adhesion of a locomotive wheel with a rail. Railways of the world. 1983. No. 10. P. 20-24].
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ffde0683-363d-4aa2-a59f-18dc71f9eaae
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.