The Dynamic Processes Mathematical Modeling in the Traction Coupling Device from Cars to the Trailers
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2018-10-13 https://doi.org/10.14419/ijet.v7i4.8.27291 -
dynamic coupling device, dynamic loads, car, towing, trailer, vehicle. -
Abstract
The dynamic processes mathematical modeling results in the traction car coupling with a trailer are presented. It is shown that the dissipative link presence in the coupling device prevents oscillation processes, and significantly reduces the dynamic loads during transient train movement. According to research, the design of a car trailer dynamic coupling device was proposed.
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References
[1] Podryhalo MÐ, Sheludchenko VV, Nove v teoriji ekspluatacijnykh vlastyvostej avtomobiliv ta traktoriv, Sumy.: Sumsjkyj nacionaljnyj aghrarnyj universytet, (2015), 213 Ñ€.
[2] Sakhno V, Ctelmashchuk V, Kozachuk L,â€Vplyv konstruktyvnykh i ekspluatatsiinykh faktoriv na stiikist rukhu avtopoizdiv katehorii M1â€, Visnyk Donetskoi akademii avtomobilnoho transportu, vol. 2, (2014), рр: 83–92. http://nbuv.gov.ua/UJRN/Vdiat_2014_2_17.
[3] Podrigalo M, Klec D,â€Opredelenie ustojchivosti avtomobilya protiv zanosa pri dvizhenii v tyagovom rezhimeâ€,VÑ–snik NTU «HPІ», vol. 12 «AvtomobÑ–le- ta traktorobuduvannya», (2007), pp: 127–136.
[4] Stelmashchuk V,â€Polipshennia pokaznykiv kerovanosti ta stiikosty trylankovykh avtopoizdivâ€, Dissertation, (2005), 154 p.
[5] Kozachuk L,â€Do vyznachennia stiikosti rukhu avtopoizda katehorii M1â€, Visnyk Zhytomyrskoho derzhavnoho tekhnolohichnoho universytetu, vol. 2 (53), (2014), pp: 121–128. doi:10.26642/tn-2014-2(69)-121-128.
[6] Sakhno V, Kuznietsov R, Stelmashchuk V, Kozachuk L,â€Do vyznachennia pokaznykiv stiikosti avtopoizda katehorii M1 u perekhidnykh rezhymakh rukhuâ€, Suchasni tekhnolohii v mashynobuduvanni ta transporti, vol. 2, (2014), pp: 123–128. http://nbuv.gov.ua/UJRN/ctmbt_2014_2_20
[7] Ning Z, Guo-dong Y, Tian M, Xiao-gao L, Nan Ch,â€Analysis of Dynamic Stability of Car-trailer Combinations with Nonlinear Damper Propertiesâ€, Procedia IUTAM, vol. 22, (2017), pp: 251–258. doi:10.1016/j.piutam.2017.08.033.
[8] Mohajer N, Abdi H, Nelson K, Nahavandi S,â€Vehicle motion simulators, a key step towards road vehicle dynamics improvementâ€, Vehicle System Dynamics, vol. 53:8, (2015), рр: 1204–1226. doi:10.1080/00423114.2015.1039551.
[9] Fratila D, Darling J,â€Simulation of Coupled Car and Caravan Handling Behaviourâ€, Vehicle System Dynamics, vol. 26:6, (1996), pp: 397–429. doi:10.1080/00423119608969317.
[10] Hac A, Fulk D, Chen H,â€Stability and Control Considerations of Vehicle-Trailer Combinationâ€, SAE Int. J. Passeng. Cars - Mech. Syst., vol. 1(1), (2009), рр: 925–937. doi:10.4271/2008-01-1228.
[11] Darling J, Tilley D, Gao B,â€An experimental investigation of car–trailer high-speed stabilityâ€, Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, vol. 223, No. 4, (2009) pp: 471–484. doi:10.1243/09544070JAUTO981.
[12] Shchukin MM, Scepnye ustrojstva avtomobilej i tyagachej: Konstrukciya, teoriya, raschet, M.–L.: Mashinostroenie, (1961), 207 p.
[13] Zakin YaH, Kononova VS, Gosteva SA, Galaktionova EN, Morozova LV, Prikladnaya teoriya dvizheniya avtopoezda, M.: Transport, (1967), 258 p.
[14] Zheleznov R,â€Obosnovanie i metodika vybora parametrov scepnogo ustrojstva malotonnazhnogo avtopoezdaâ€, Dissertation, (2016), 167 p.
[15] Sorge F,â€On the sway stability improvement of car-caravan systems by articulated connectionsâ€, Vehicle System Dynamics, vol. 53:9, (2015), рр: 1349–1372. doi: 10.1080/00423114.2015.1048255.
[16] Sharp R, Alonso Fernandez M,â€Car–caravan snaking Part 1: the influence of pintle pin frictionâ€, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, vol. 216, no. 7, (2002), pp: 707–722. doi:10.1243/09544060260128760.
[17] Bhondave B, Ganesan T, Varma N, Renu R,â€Design and Development of Electro Hydraulics Hitch Control for Agricultural Tractorâ€, SAE Int. J. Commer, vol. 10 (1), (2017), pp: 405–410. doi:10.4271/2017-26-0227.
[18] Kuzo IV, Vankovych TM, Zinko YaA, Teoretychna mekhanika. Dynamika. Kn.1, L.: Rastr-7, (2012), 444 p.
[19] Kuzo IV, Vankovych TM, Zinko YaA, Teoretychna mekhanika. Dynamika. Kn.2, L.: Rastr-7, (2012), 338 p.
[20] Derbaremdyker AD, Amortyzatory transportnykh mashyn, M.: Mashynostroenye, (1985), 200 p.
[21] Kisulenko BV, Kratkij avtomobil'nyj spravochnik, T. 3: Legkovye avtomobili. CH. 1, M.: NPST Transkonsalting, (2004), 560 p.
[22] Volgin VV, Pricepy k legkovym avtomobilyam, M.: Astrel', (2005), 89 p.
[23] http://pricep.org.ua/pricepy/12-pa-004-kiev.html
[24] Osnovenko M Yu, Sakhno VP, Avtomobili, K.: NMK VO, (1992), 344 p.
[25] Kratkij avtomobil'nyj spravochnik. 9-e izd., M.: Transport, (1982), 464 p.
[26] Pysarenko HS, Kvitka OL, Umanskyi ES, Opir materialiv, K.: Vyshcha shkola, (1993), 655 p
[27] Bosch. Avtomobil'nyj spravochnik, 2-e izd., M: ZAO â€KZHI Za rulyomâ€, (2004), 992 p.
[28] Bykov KP, Grishchenko PV, Mopedy, mokiki. Ustrojstvo, obsluzhivanie, remont: Posobie po remontu, Chernigov: PKF Ranok, (2007), 128 p.
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How to Cite
Orysenko, O., Scoryk, M., Kryvorot, A., & Shapoval, M. (2018). The Dynamic Processes Mathematical Modeling in the Traction Coupling Device from Cars to the Trailers. International Journal of Engineering & Technology, 7(4.8), 473-477. https://doi.org/10.14419/ijet.v7i4.8.27291Received date: 2019-02-11
Accepted date: 2019-02-11
Published date: 2018-10-13