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2014 | 14 | 1 |

Tytuł artykułu

Simulation model of abrasive material motion

Treść / Zawartość

Warianty tytułu

RU
Imitacionnaja model' dvizhenija abrazivnogo materiala

Języki publikacji

EN

Abstrakty

EN
RU

Wydawca

-

Rocznik

Tom

14

Numer

1

Opis fizyczny

p.60-72,fig.,ref.

Twórcy

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

Bibliografia

  • 1. Belotserkovskii O.M., Davydov Y.M., 1982.: Method of large particles in gas dynamics – M., 158. (in Russian).
  • 2. Dubnishchev Y.N., Rinkevichyus B.S., 1982.: The laser doppler anemometry – M.: Nauka, 303. (in Russian).
  • 3. Golubenko A.L., Gorbunov N.І., Kashura A.L., Kostyukevich A.I., Kravchenko K.A., Popov S.V., Kovtanets M.V., Krisanov M.A., 2010.: Patent of Ukraine № 48516 for utility model Method for increasing the adhesion of the contact patch of the wheel rail / № u200908745, stated. 20.08.2009, publ. 25.03.2010, bul. № 6, 6. (in Russian).
  • 4. Gorbunov N., Kovtanets M., Prosvirova O., Garkushin E., 2011.: Clutch control in the system of "wheel-rail" // III International conference «Transport Problems 2011», Silesian University of Technology, 432-440.
  • 5. Gorbunov N., Kovtanets M., Kostyukevich O., Kravchenko K., Prosvirova O., 2013.: Certificate of registration of copyright №47808 14.04.2013. (in Ukrainian).
  • 6. Gorbunov N., Kovtanets M., Nozhenko V., Prosvirova O., 2013.: Analysis of the influence of jet-abrasive flow parameters on wheel and rail friction coefficient // ТЕКА. Commission of Motorization and Power Industry in Agriculture, Vol. 13, No.3, 68-74.
  • 7. Gorbunov N.I., Kostyukevich A.I., Kashura A.L., Vivdenko Y.G., 1998.: About the methods of preparation to the acceptance of technical decision / Collection of scientific works East Ukrainian state university, Lugansk, 47-53. (in Russian).
  • 8. Gorbunov N.І., Kovtanets M.V., Kravchenko K.A., Mogila V.І., Petrenko V.A, Nozhenko V.S., Nozhenko H.S., 2012.: Patent of Ukraine №69853 for utility model System increase friction coefficient in the contact zone of the wheel rail / № u201114163, stated. 30.11.2011, publ. 10.05.2012, bul.№ 9, 5. (in Russian).
  • 9. Haas S., 2005.: Verbesserung des Haftwerts zwischen Rad und Schiene durch fahrzeugseitige ma durch fahrzeugseitige Maß ßnahmen / Schienenfahrzeugtagung, Graz, 24.
  • 10. Hockney R., Eastwood J., 1987.: Method for simulation of particles / translated from English. – M.: World, 640.
  • 11. Khlebnikov V.N., 1976.: Research of methods of increase of coefficient of rolling friction of wheels with rails / Railway transport abroad. – М.: CRITE MRP, 1976, №4(174). 18-34. (in Russian).
  • 12. Knothe K., Le-The. H., 1985.: Method for the analysis of the tangential stresses and the wear distribution between two elastic bodies of revolution in rolling contact, Int. J. Solids Structures Vol. 21, №. 8, 889-906.
  • 13. Kovtanets M.V., Kravchenko K.A., Gorbunov N.N., Boyko G.A., 2012.: Application of expert evaluation for adoption of technical solutions [Electronic scientific specialized edition] // Science news Dahl University: Lugansk, collected works № 7. (in Russian).
  • 14. Kostyukevich A.I., Gorbunov N.I., Kovtanets M.V., 2013.: Experimental verification of the effectiveness of the jet-abrasive action on the rails to improve the frictional properties of the contact "wheel-rail" // Bulletin EUNU. Dahl № 18 (207) P. 1. Publisher EUNU. Dahl, Lugansk, 33-37. (in Russian).
  • 15. Koshin A.A., Sopeltsev A.B., 2010.: Study of particle size distribution and microgeometrical performance abrasive grain grinding wheels used in the stripping grinding / Bulletin SUSU, № 10, 77-82. (in Russian)
  • 16. Krasheninin A., Osenin J, Matvienko S., 2013.: Improving efficiency of train traction operational standards: an approach with usage of simulation // ТЕКА. Commission of Motorization and Power Industry in Agriculture, Vol. 13, No.3, 98-102.
  • 17. Luzhnov J.M., 2003.: Adhesion of the wheels with the rails, The nature and regularities, M.: Intext, 144. (in Russian).
  • 18. Mikhailov E., Semenov S., Panchenko E, 2013.: The possibility of reducing kinematic slip with two-point contacting with rail wheel railway vehicle // ТЕКА. Commission of Motorization and Power Industry in Agriculture, Vol. 13, No.3, 139-145.
  • 19. Mokrousov S.D, Gorbunov N.N., Kovtanets M.V., Shcherbakov V.P., Mogila V.I., Naysh N.M. 2013.: Patent of Ukraine №77313 for utility model The method of increasing the adhesion of the contact patch of the wheel rail / № u201208878, stated. 18.07.2012, publ. 11.02.2013, bul.№ 3, 5. (in Russian).
  • 20. Murdasos A.V., 1968.: Investigation of the process stripping grinding rental, Dis. PhD, Ural branch of the All-Union Scientific Research Institute of Abrasives and Grinding, Chelyabinsk, 23. (in Russian).
  • 21. Nozhenko V., Gorbunov N., Mokroysov S., Chernikov V., Kovtanez M., Demin R., 2012.: Experimental measurement complex running gear for research and of interaction conditions rolling stock .// An international journal on motorization, vehicle operation, energy efficiency and mechanical engineering.Vol. 12. № 4 Lublin – Lugansk.Teka, 190-196.
  • 22. Orlov A.I., 2005.: Theory of making decision. Train aid. – М.: Publisher "Examination", 656 с. (in Russian)
  • 23. Osenin J.I., Marchenko D.N., Shvedchikova I.A., 1997.: Frictional interaction wheel and rail – Lugansk: Publisher EUSU, 227. (in Russian).
  • 24. Smirnov V.I., 1997.: Laser diagnostics of turbulence: dis. PhD: 01.02.05 – Moscow: MEI, 39. (in Russian).
  • 25. Somerscales E.C., 1981.: Laser doppler velocimeter / Methods of Experimental Physics (ed. by Emrich R.J.). – London: Academic Press. V. 18 (fluid dynamics, part A), 93-240.
  • 26. Sommerfeld M., 1990.: Nymerical simylation of the particle dispersion in turbulent flow: the importrance of particle lift forces and different particle/wall collision models / Numerical Methods for Multiphase Flows. ASME, Vol.91, 11-18.
  • 27. Sommerfeld M., 1992.: Modelling of particle/wall collisions in confined gas-particle flows / Int. J. Multiphase Flows. V.18. №6, 905-926.
  • 28. Sommerfeld M., Qui H., 1993.: Characterization of particle-laden, confined swirling flows by phase-doppler anemometry and numerical calculation / Int. J. Multiphase Flow. V.19. №6, 1093-1127.
  • 29. Tsuji Y., Morikawa Y., Tanaka T., Kazimine T., Nisida S., 1988.: Measurements of an axisymmetric jet laden with coarse particles, Int. J. Multiphase Flow, Vol.14, 565-574.
  • 30. Varaskin A.Y., 2003.: Turbulent flow of gas and solid particles – M.: FIZMATLIT, 192. (in Russian).
  • 31. Yurchenko V.A., 2005.: Mathematical model of two-phase turbulent jet with particles of large diameter / Proceedings of the universities. North. – Caucasus. region. Ser. Techn. Science. Number 1, 51-55. (in Russian).

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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