References
- Jin, X , Ling, L , Xiao, X , Zhu, M , and Zhou, Z , 2011. Dynamic behaviour numerical simulation and safety boundary analysis for high speed trains in severe environments] , Comput Aided Eng 20 (3) (2011), pp. 29–41, Chinese..
- Brabie D. On the influence of rail vehicle parameters on the derailment process and its consequences [Licentiate thesis]. Stockholm: Royal Institute of Technology; 2005..
- Xiao, X , Jin, X , Zhu, M , and Zhang, W , 2011. Effect of tangent track buckle on vehicle derailment , Multibody Syst Dyn 25 (1) (2011), pp. 1–41.
- Masayuki, I , 1978. A study of track maintenance for the derailment due to the interaction between track and vehicle , QR RTRI 19 (1978), pp. 1–6.
- Parena, D , Kuka, N , Masmoudi, W , and Kik, W , 1999. Derailment simulation, parametric study , Vehicle Syst Dyn 33 (Suppl) (1999), pp. 155–167.
- Clementson, J , and Evans, J , 2002. The use of dynamic simulation in the investigation of derailment incidents , Vehicle Syst Dynam 37 (Suppl) (2002), pp. 338–349.
- Cheli, F , Corradi, R , Diana, G , Facchinetti, A , and Gherardi, F , 2006. Effect of track geometrical defects on running safety of tramcar vehicles , Vehicle System Dynam 44 (Suppl) (2006), pp. 302–312.
- Ishida, H , Matsuo, M , and Fujioka, T , 2007. Safety assessment method of railway vehicle under oscillatory wheel load fluctuation , J Environ Eng 2 (2) (2007), pp. 407–418.
- Xiao, X , Jin, X , and Wen, Z , 2007. Effect of disabled fastening systems and ballast on vehicle derailment , trans. ASME J Vib Acoust 129 (2) (2007), pp. 217–229.
- Xiao, X , Jin, X , Deng, Y , and Zhou, Z , 2008. Effect of curved track support failure on vehicle derailment , Vehicle Syst Dyn 46 (11) (2008), pp. 1029–1059.
- Carrarini A. Reliability based analysis of the crosswind stability of railway vehicles [PhD dissertation]. Berlin: Technical University Berlin; 2006..
- Baker CJ, Sterling M. Current and recent international work on railway aerodynamics. Report Issue number 4. School of Engineering, University of Birmingham; 2003..
- Nishimura, K , Terumichi, Y , and Morimura, T , 2009. Development of vehicle dynamics simulation for safety analyses of rail vehicles on excited tracks , Trans ASME J Comput Nonlinear Dyn 4 (1) (2009), pp. 1–9.
- Miyamoto, T , Ishida, H , and Matsuo, M , 1997. Running safety of railway vehicle as earthquake occurs , QR RTRI 38 (3) (1997), pp. 117–122.
- Miyamoto, T , Matsumoto, N , Sogabe, M , Shimomura, T , Nishiyama, Y , and Matsuo, M , 2007. Full-scale experiment on the dynamic behaviour of railway vehicles against heavy track vibration , J Environ Eng 2 (2) (2007), pp. 419–428.
- Tanabe, M , Matsumoto, N , Wakui, H , Sogabe, M , Okuda, H , and Tanabe, Y , 2008. A simple and efficient numerical method for dynamic interaction analysis of a high-speed train and railway structure during an earthquake , Trans ASME J Comput Nonlinear Dyn 3 (2) (2008), pp. 1–8.
- Wu Y. Dynamic interactions of train–rail–bridge system under normal and seismic conditions [PhD dissertation]. Taiwan: National Taiwan University; 2000..
- Yang, Y , and Wu, Y , 2002. Dynamic stability of trains moving over bridges shaken by earthquakes , J Sound Vib 258 (1) (2002), pp. 65–94.
- Yau, J , and Fryba, L , 2007. Response of suspended beams due to moving loads and vertical seismic ground excitations , Eng Struct 29 (12) (2007), pp. 3255–3262.
- Xia, H , Han, Y , Zhang, N , and Guo, W , 2009. Dynamic analysis of train–bridge system subjected to non-uniform seismic excitations , Earthquake Eng Struct Dyn 35 (12) (2009), pp. 1563–1579.
- Luo, X , 2005. Study on methodology for running safety assessment of trains in seismic design of railway structures , Soil Dyn Earthquake Eng 25 (1) (2005), pp. 79–91.
- Xiao, X , Ling, L , and Jin, X , 2012. A study of the derailment mechanism of a high speed train due to an earthquake , Vehicle Syst Dyn 50 (3) (2012), pp. 449–470.
- Nadal, MJ , 1896. Théorie de la stabilité des locomotives. Part II: Mouvement de lacet , Ann. Mines 10 (1896), pp. 232–255.
- Wu H. Investigation of wheel rail interaction on wheel flange climb derailment and wheel rail profile compatibility [PhD dissertation]. Chicago (IL): Illinois Institute of Technology; 2000..
- Weinstock H. Wheel climb derailment criteria for evaluation of rail vehicle safety. Proceedings of the American Society of Mechanical Engineers Winter Annual Meeting; New Orleans (LA). 1984; 84–WA/RT–1: 1–7..
- Matsudaira, T , 1963. Dynamics of high speed rolling stock , QR RTRI 4 (the special issue) (1963), pp. 1–6.
- M1001. AAR mechanical division: Manual of standards and recommended practices, section c – Part II. Vol. 1, Chapter XI, section 11.5.2 Track-worthiness criteria, adopted 1987, revised 1993..
- Wilson N, Shu XG, Wu HM, Tunna J. Distance-based flange climb L/V criteria. Association of American Railroads/Transportation Technology Center. Institute of Technology Digest. TD–04–012, 2004..
- China Standards. [GB/T 5599–85, railway vehicles – specification for evaluation the dynamic performance and accreditation test]. 1985. Chinese..
- Miyamoto, M , 1996. Mechanism of derailment phenomena of railway vehicles , QR RTRI 37 (3) (1996), pp. 147–155.
- Zhai, WM , and Chen, G , 2001. [Method and criteria for evaluation of wheel derailment based on wheel vertical rise , J China Railway Soc 23 (2) (2001), pp. 17–26, Chinese..
- Xiang, J , Zeng, QY , and Lou, P , 2004. Transverse vibration of train–bridge and train–track time varying system and the theory of random energy analysis for train derailment , Vehicle Syst Dyn 41 (2) (2004), pp. 129–155.
- Zhai, WM , Cai, CB , and Guo, SZ , 1996. Coupling model of vertical and lateral vehicle/track interactions , Vehicle Syst Dyn 26 (1) (1996), pp. 61–79.
- Zhai, WM , Wang, KY , and Cai, CB , 2009. Fundamentals of vehicle–track coupled dynamics , Vehicle Syst Dyn 47 (11) (2009), pp. 1349–1376.
- Knothe, K , and Grassie, SL , 1993. Modeling of railway track and vehicle/track interaction at high frequencies , Vehicle Syst Dyn 22 (3/4) (1993), pp. 209–262.