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Warianty tytułu
Języki publikacji
Abstrakty
The paper includes a short review of selected problems in railway vehicle-track system dynamics which are related to the running safety. Different criteria used in assessment of the running safety are presented according to the standards which are in force in Europe and other countries. Investigations of relevant dynamic phenomena, including the mechanism of railway vehicle derailment, and the resulting modifications of the running safety criteria are also discussed.
Czasopismo
Rocznik
Tom
Strony
37--45
Opis fizyczny
Bibliogr. 62 poz.
Twórcy
autor
- Warsaw University of Technology, Faculty of Transport, Warsaw, Poland
Bibliografia
- [1] Barbosa, R.S.: A 3D contact safety criterion for flange climb derailment of a railway wheel. Vehicle System Dynamics 42 (5), 2004, pp. 289–300.
- [2] Boronenko Yu., Orlova A., Iofan A., Galperin S.: Effects that appear during the derailment of one wheelset in the freight wagon: simulation and testing, Vehicle System Dynamics, vol. 44, Supplement, 2006, pp.663–668.
- [3] Brabie D., Andersson E.: Dynamic simulation of derailments and its consequences, Vehicle System Dynamics, vol. 44 supplement, 2006, pp. 652–662.
- [4] Chelli F.et all: Effect of track geometrical defects on running safety of tramcar vehicles, Vehicle System Dynamics, vol. 44 supplement, 2006, pp. 302-312.
- [5] Choromański W.: The software package ULYSSES for automatically generations of equations and simulation of railway vehicle motion, Konf. Transport System Engineering, Politechnika Warszawska 1995.
- [6] Choromański W., Zboiński K.: Synthesis of control to improve lateral dynamics of railway vehicles, Proceedings of the 13th IAVSD Symposium on the Dynamics of Vehicles on Roads and on Tracks, Sichuan (China). Vehicle System Dynamics 23 n Suppl., 1994, pp. 47-58.
- [7] Chudzikiewicz A., Elementy diagnostyki pojazdów szynowych, Wyd. Inst. Technologii Eksploatacji, Biblioteka Problemów Eksploatacji, Radom 2002.
- [8] Chudzikiewicz A.: Monitorowanie stanu układu dynamicznego pojazd szynowy-tor, Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa 2012.
- [9] Chudzikiewicz A., Droździel J., Sowiński B.: Wykorzystanie MATLAB-a do symulacji dynamiki pojazdu szynowego, II Warsztaty Naukowe "Symulacja w Badaniach i Rozwoju", PTSK IPPT PAN, Materiały Konf., Warszawa, listopad 1995, (pp.51-53).
- [10] Clark R. A., Eickhoff B. M., Hunt G. A.: Prediction of the dynamic response of vehicles to lateral track irregularities, Proceedings of 7th IAVSD Symposium 1981, pp.535-548.
- [11] Dendy Marshall C.F.: A history of British railways down to the year 1830, London: Oxford University Press. 1938, pp.147-148.
- [12] Droździel J., Kardas-Cinal E., Sowiński B.: Railway vehicle safety assessment affected by wheel and rail wear, Proceedings of the 11th Mini Conference on “Vehicle System Dynamics, Identification and Anomalies”, VSDIA 2010, Budapest, Hungary 8-10 November, 2010, pp. 81-88.
- [13] Droździel J., Sowiński B., Railway car dynamic response to track transition curve and single standard turnout. Computers in Railways X, WIT Press 2006 - Southampton, Boston. ISBN: 1-84564-177-9, pp. 849-858.
- [14] Droździel J., Kardas-Cinal E., Sowiński B., Railway vehicle safety assessment affected by wheel and rail wear. VSDIA 2010 – 12th International Conference on Vehicle System Dynamics, Identification and Anomalies, Budapest, 8-10 Nov. 2010, pp. 81-88
- [15] Elkins J., Wu H.: New criteria for flange climb derailment, Railroad Conference, 2000. Proceedings of the 2000 ASME/IEEE Joint Volume , 1-7, 2000.
- [16] EN 14363: Railway applications - Testing for the acceptance of running characteristics of railway vehicles - Testing of running behaviour and stationary tests. European Committee For Standardization, 2005.
- [17] Esveld K.C.: Modern railway track, MRT - Productions, Duisburg 1989.
- [18] Evans J., Berg M.: Challenges in simulation of rail vehicle dynamics, Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility, Volume 47, issue 8, 2009, pp. 1023 – 1048.
- [19] Federal Railroad Administration, Track Safety Standards, Part 213, Subpart G, September 1998.
- [20] Gąsowski W., Lang R.: Kołysanie poprzeczne zestawu kołowego podczas wężykowania w torze (1-7), Pojazdy Szynowe: nr 2, s. 35-44,1999 (1), nr 3, s. 26-49, 1999 (2), nr 4, s. 1-18, 1999 (3), nr 1, s. 1-26, 2000 (4), nr 2, s. 1-8, 2000 (5), nr 4, s. 1-7, 2000 (6), 2001, nr 2, s. 1-9, 2000 (7).
- [21] Hung C., Suda Y., Aki M.,Tsuji T., Morikawa, M., Yamashita T., Kawanabe T., Kunimi T.: Study on detection of the early signs of derailment for railway vehicles, Vehicle System Dynamics; supplement, 2010, vol. 48, pp. 451-466,
- [22] Iwnicki S. (ed.): Handbook of railway vehicle dynamics, CRC Press Inc., 2006.
- [23] Jun X., Qingyuan Z.: A study on mechanical mechanism of train derailment and preventive measures for derailment, Vehicle System Dynamics, vol. 43, No. 2, February 2005, pp.121 – 147.
- [24] Kalker J.J.: A fast algorithm for the simplified theory of rolling contact, Vehicle System Dynamics 11, pp.1- 3.
- [25] Kalker, J. J.: On the rolling contact of two elastic bodies in the presence of dry friction, Doctoral Thesis, Delft, 1967.
- [26] Kardas-Cinal E.: Bezpieczeństwo i komfort jazdy pojazdu szynowego z uwzględnieniem losowych nierówności geometrycznych toru, Prace Naukowe „Transport” z. 94, Oficyna Wydawnicza Politechniki Warszawskiej Warszawa, 2013.
- [27] Kardas-Cinal E.: Spectral analysis of derailment coefficient in railway vehicle - track system with random track irregularities, artykuł - 8 stron (wersja elektroniczna na CD): Proceedings of 21st International Symposium on Dynamics of Vehicles on Roads and Tracks. IAVSD´09, 17-21 August 2009, KTH, Stockholm, Sweden; abstract: Abstract Book IAVSD”09, pp. 360-361.
- [28] Kardas-Cinal E.: Spectral distribution of derailment coefficient in non-linear model of railway vehicle – track system with random track irregularities, Journal of Computational and Nonlinear Dynamics (ASME) 8, 2013, 031014 (9 pages).
- [29] Kik W.: MEDYNA, User Manual, ArgeCare 1997.
- [30] Klingel W.: Über den Lauf von Eisenbahnwagen auf Gerarder Bahn. Organ fűr die Fortschritte des Eisenbahnwesens, 20, 113-123, 1883.
- [31] Koci H.H. and Swenson C.A., Locomotive wheel-loading – a system approach, General Motors Electromotive Division, LaGrange, IL, February, 1978.
- [32] Matej J.: Modelowanie oraz symulacyjne badania wagonów bimodalnych w kategorii zagrożenia wykolejeniem, Oficyna Wydawnicza PW 2010, Zeszyt "Mechanika" nr 234, ISSN: 0137-2335.
- [33] Matsudaira T.: Dynamics of high speed rolling stock, Japanese National Railways RTRI Quaterly Reports, Special Issue, 1963.
- [34] M1001, AAR Mechanical Division, Manual of standards and recommended practices, section C – Part II, Volume 1, Chapter XI, Section 11. 5.2 Track- Worthiness Criteria, Adopted 1987, Revised 1993.
- [35] Nadal M. J.: Theorie de la stabilite des locomotives, Part 2, Movement de Lacet, Annales des Mines, vol. 10, 1896, str. 232.
- [36] Nagase K., Wakabayashi Y., Sakahara H.: A study of the phenomenon of wheel climb derailment: results of basic experiments using model bogies, Proc. Instn. Mech. Engrs., vol 216 Part F: J Rail and Rapid Transit, 2002 ,pp. 237-247.
- [37] Opala M.: Analysis of experimental data in the context of safety against derailment of a railway vehicle, using the energy method, Key Engineering Materials, vol. 518, 2012, pp.16-23.
- [38] Piotrowski J.: Poprzeczne oddziaływanie między pojazdem i torem– podstawy modelowania numerycznego, Prace Naukowe PW, seria Mechanika Z.118, 1990.
- [39] Polach O., Kaiser I.: Comparison of methods analyzing bifurcation and hunting of complex rail vehicle models, J. Comput. Nonlinear Dynam. 7, 2012, 041005 (8 pages).
- [40] Rozporządzenie Ministra transportu, budownictwa i gospodarki morskiej z dnia 7 sierpnia 2012 r. w sprawie zakresu badań koniecznych do uzyskania świadectwa dopuszczenia do eksploatacji typu budowli przeznaczonej do prowadzenia ruchu kolejowego, świadectwa dopuszczenia do eksploatacji typu urządzenia przeznaczonego do prowadzenia ruchu kolejowego oraz świadectwa dopuszczenia do eksploatacji typu pojazdu kolejowego. Dziennik Ustaw, Poz. 918, 2012.
- [41] Shabana A.A., Zaazaa, K.E., Sugiyama, H.: Railroad vehicle dynamics: a computational approach, Taylor & Francis/CRC, 2008.
- [42] Shabana A.A.: Nadal’s formula and high speed rail derailments, J. Comput. Nonlinear Dynam. 7, 2012, 041003 (8 pages).
- [43] Shu X., Wilson N.: Simulation of dynamic gauge widening and rail roll: effects on derailment and rolling contact fatigue, Vehicle System Dynamics, vol. 46, supplement, 2008, pp. 981–994.
- [44] Shu X., Wilson N., Wu H., Tunna J.: A bi-parameter distance criterion for flange climb derailment, Rail Conference, 2005. Proceedings of the 2005 ASME/IEEE Joint.
- [45] Shust W., Elkins J., Kalay S., El-Sibaie: Flange climb derailment tests using AAR’s Track Loading Vehicle, Research Report R910, Association of American Railroads, December 1997.
- [46] Sobaś M.: Stan i doskonalenie kryteriów bezpieczeństwa przed wykolejeniem pojazdów szynowych (1), Pojazdy Szynowe nr 4, 2005, str. 1-13, (część 2), Pojazdy Szynowe nr 2, 2006, str. 37-48.
- [47] Technical Standard for Japanese Railway, available at http://www.mlit.go.jp/english/2006/h_railway_bureau/Laws_concerning/index.html
- [48] Towpik K.: Linie kolejowe dużych prędkości, Problemy Kolejnictwa – Zeszyt 151,2010, str. 28-70.
- [49] True H., Jensen J.C.: Parameter study of hunting and chaos in railway vehicle dynamics. Lugner, Peter; Hedrick, J. Karl (Eds.): Vehicle System Dynamics. Proc. of 13th IAVSD Symposium August 23-27, 1994, Chengdu, Sichuan, China. Swets and Zeitlinger ,1994, 508-520.
- [50] UIC Code 518 OR: Testing and approval of railway vehicles from the point of view of their dynamic behaviour - Safety – Track fatigue-Ride quality, International Union of Railways, 2nd ed., April 2003.
- [51] Weinstock H.: Wheel climb derailment criteria for evaluation of rail vehicle safety, Paper no. 84-WA/RT-1, 1984 ASME Winter Annual Meeting, New Orleans, LA, November 1984.
- [52] Wickens A.: A history of railway vehicle dynamics, in [22], pp. 5-38.
- [53] Wickens A.: Steering and dynamic stability of railway vehicles, Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility, volume 5, issue 1-2, 1976, pp.15-46.
- [54] Wu, H., and J. Elkins, Investigation of Wheel Flange Climb Derailment Criteria, Report R-931, Association of American Railroads, Washington, D.C., July 1999.
- [55] Wu H., Shu X., Wilson N.: TCRP Report 71, Track-Related Research, Volume 5: Flange Climb Derailment Criteria and Wheel/Rail Profile Management and Maintenance Guidelines for Transit Operations, Transportation Research Board of the National Academies (USA), 2005.
- [56] Wu H., Wilson N.: Railway Vehicle Derailment and Prevention, in [22], pp. 209-237.
- [57] Xinbiao Xiao, Xuesong Jin,Yongquan Deng and Zhongrong Zhou, Effect of curved track support failure on vehicle derailment, Vehicle System Dynamics, Vol. 46, No. 11, November 2008, pp.1029–1059.
- [58] Xiang .J, Zeng Q. Y.: Mechanism and energy random analysis of train derailment on railway bridges, International Journal of Structural Stability and Dynamics, vol. 9, No. 4, 2009, pp. 585-605.
- [59] Zboiński K., Metodyka modelowania dynamiki pojazdów szynowych z uwzględnieniem zadanego ruchu unoszenia i jej zastosowania. Prace Naukowe Transport z. 43. Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa 2000
- [60] Zboiński, K., Dusza, M.: Self-exciting vibrations and Hopf’s bifurcation in non-linear stability analysis of rail vehicles in curved track. European Journal of Mechanics, Part A/Solids, vol. 29, no. 2, 2010. pp.190-203.
- [61] Zeng Jing , Guan Qinghua, Study on flange climb derailment criteria of a railway wheelset, Vehicle System Dynamics, Vol. 46, No.3, March 2008, pp. 239–251
- [62] Zeng J., Wu P.: Study on the wheel/rail interaction and derailment safety. Wear vol. 265, 2008, pp. 1452–1459.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9f5f4123-aaf0-45c9-8527-c3d9162314ce