Bae, H.U (2015) Advanced design concept of derailment containment provisions using collision simulation after train derailment.
Ph.D. dissertation, Department of Civil Engineering, The Graduate School of Chungnam National University.
Bae, H.U, Kim, A.R, Kim, D.S, Choi, W.I, and Lim, N.H (2013). Review on the height of derailment barrier on the railway bridge.
Proceedings of the Autumn Conference of the Korean Society for Railway. Korean Society for Railway, KSR2013A168, p 659-664 (in Korean).
Bae, H.U, Park, B.J, Back, H.S, and Lim, N.H (2014). Consideration on the concept of DCP by foreign case study.
Proceedings of the Autumn Conference of the Korean Society for Railway. Korean Society for Railway, KSR2014A382, p 1155-1159 (in Korean).
Bae, H.U, Park, B.J, Lee, Y.H, and Lim, N.H (2015). Evaluation on the characteristics of containment of derailed train.
Proceedings of the Annual Conference of the Korean Society of Hazard Mitigation. Korean Society of Hazard Mitigation, p 82 (in Korean).
Bae, H.U, Yun, K.M, and Lim, N.H (2016) Containment capacity and estimation of crashworthiness of derailment containment walls against high-speed trains.
Proc. IMechE, Part F: J. Rail Rapid Transit, Online first publish, DOI:10.1177/0954409716684663.
Beason, W.L, Hirsch, T.H, and Campise, W.L (1989)
Measurement of heavy vehicle impact forces and inertia properties, Final Report, FHWA/RD-89/120, U.S. Department of Transportation.
Birk, A.M, Anderson, R.J, and Coppens, A.J (1990a) A computer simulation of a derailment accident: Part I - model basis.
J Hazard. Mater, Vol. 25, No. No. 1-2, pp. 121-147. 10.1016/0304-3894(90)85075-E.
Birk, A.M, Anderson, R.J, and Coppens, A.J (1990b) A computer simulation of a derailment accident: Part II - sample simulation.
J Hazard. Mater, Vol. 25, No. No. 1-2, pp. 149-165. 10.1016/0304-3894(90)85075-E.
Brabie, D (2007) Wheel-sleeper Impact Model in Rail Vehicles Analysis.
Journal of System Design and Dynamics, Vol. 1, No. No. 3, pp. 468-480. 10.1299/jsdd.1.468.
Brabie, D, and Andersson, E (2008). High-speed train derailments - Minimizing consequences through Innovative design.
Proceedings of the 8th World Congress of Railway Research (WCRR 2008). Union Internationale Des Chemins De Fer (UIC).
Cheng, Y.C, and Hsu, C.T (2012) Hunting Stability and Derailment Analysis of a Car Model of a Railway Vehicle System.
Proc. IMechE, Part F: J. Rail Rapid Transit, Vol. 226, No. 2, pp. 187-202. 10.1177/0954409711407658.
Cho, H.J (2010).
Study on wheel-rail models for prediction of derailment behavior after collision using virtual testing model Ph.D. Thesis. Seoul: National University of Technology; (in Korean).
Coppens, A.J, Wong, J.D.E, Bibby, A, Birk, A.M, and Anderson, R.J (1988)
Development of a Derailment Accident Computer Simulation Model, Report No.TP9254E, Transportation Development Centre.
Fukazawa, J, and Sonoda, Y (2008) Study on the Crashworthiness Estimation of the Derailment Barrier.
Journal of Applied Mechanics (応用力学論文集), Vol. 11, pp. 459-466 (in Japanese). 10.2208/journalam.11.459.
Go, Y.S (2016)
Parametric analysis for collision between derailed train and derailment containment provisions, A Thesis for the Degree of Mater of Science, Department of Civil Engineering, The graduate school of Chungnam National University.
Guan, Q, Zeng, J, and Jin, X (2014) An Angle of Attack-based Derailment Criterion for Wheel Flange Climbing.
Proc. IMechE, Part F: J. Rail Rapid Transit, Vol. 228, No. 7, pp. 719-729. 10.1177/0954409713490149.
Hirsch, T.J, Harris, W.J, James, R.W, Lamkin, J, and Zhang, H (1989).
Analysis and design of metrorail - railroad barrier system. Report No.3780-2, TTI-3780. Washington: Metropolitan Area Transit Authority.
Hong, T.D (2006).
A study on the improvement of KTX bogie instability. Master’s Thesis. Department of Transportation Management, The graduate school of Urban Sciences University of Seoul; (in Korean).
Kim, D.S (2012).
Design of roadside safety features using vehicle velocity-time history. A Dissertation for the Degree of Doctor of Engineering, Department of Civil and Environment Engineering, The graduate school of Kongju National University, (in Korean).
Kim, K.J (2014)
Evaluation of collision force by impact simulations and its application to the design of bridge piers, A Dissertation for the Degree of Doctor of Engineering, Department of Civil and Environment Engineering, The graduate school of Kongju National University; (in Korean).
Klasztorny, M, and Szurgott, P (2012). Modeling and simulation of bridge-track-train systems at high service velocities with LS-DYNA.
Proceeding of the 12th International LS-DYNA Users Conference. Livermore Software Technology Corporation.
Koo, J.S, and Cho, H.J (2012) A Method to Predict the Derailment of Rolling Stock Due to Collision Using a Theoretical Wheelset Derailment Model.
Multibody Syst Dyn, Vol. 27, No. No. 4, pp. 403-422. 10.1007/s11044-011-9270-y.
Koo, J.S, and Choi, S.Y (2012) Theoretical Development of a Simplified Wheelset Model to Evaluate Collision- induced Derailments of Rolling Stock.
J Sound Vib, Vol. 331, No. No. 13, pp. 3172-3198. 10.1016/j.jsv.2012.02.014.
Koo, J.S, Cho, H.J, and Kwon, T.S (2007). A study on establishing the accident scenarios for crashworthiness of rolling stocks.
Proceedings of the Spring Conference of the Korean Society for Railway. Korean Society for Railway, p 1-10 (in Korean).
Ling, L, Xiao, X, and Jin, X (2014) Development of a simulation model for dynamic derailment analysis of high-speed trains.
Acta Mech. Sin, Vol. 30, No. No. 6, pp. 860-875. 10.1007/s10409-014-0111-0.
Livermore Software Technology Corporation (LSTC) (2013)
LS-DYNA Keyword User’s Manual, Vol. 1-3, Revision 2645. Livermore Software Technology Corporation.
Moyer, P.D, James, R.W, Bechara, C.H, and Chamberlain, K.L (1994).
Safety of high speed guided ground transportation systems - Intrusion barrier design study. Final Report: R5021/RR593, DOT-VNTSC- FRA-95-3, DOT/FRA/ORD-95/04. U.S. Department of Transportation.
SociétéNationale des Chemins de fer Français (SNCF) (2008). SNCF International in South Korea. Leaflet; No. No. 1, Available at:
http://www.sncf.com.
Wang, W, and Li, G.X (2010) Development of a simulation model of a high-speed vehicle for a derailment mechanism.
Proc. IMechE, Part F: J. Rail Rapid Transit, Vol. 224, No. Issue. 2, pp. 103-113. 10.1243/09544097jrrt277.
Wikipedia contributors (2015). List of rail accidents (2010-present).
The Free Encyclopedia. Page Version ID:659834571, Available at:
https://en.wikipedia.org.
Wu, X, Chi, M, and Gao, H (2014) The Study of Post-derailment Dynamic Behavior of Railway Vehicle Based on Running Tests.
Eng. Fail. Anal, Vol. 44, pp. 382-399. 10.1016/j.engfailanal.2014.05.021.
Wu, X, Chi, M, and Gao, H (2016a) Post-derailment Dynamic Behavior of a High-speed Train Under Earthquake Excitations.
Eng. Fail. Anal, Vol. 64, pp. 97-110. 10.1016/j.engfailanal.2016.03.005.
Wu, X, Chi, M, Gao, H, Ke, X, Zeng, J, Wu, P, and Zhu, M (2016b) Post-derailment Dynamic Behavior of Railway Vehicles Travelling on a Railway Bridge During Earthquake.
Proc. IMechE, Part F: J. Rail Rapid Transit, Vol. 230, No. Issue. 2, pp. 418-439. 10.1177/0954409714543338.
Wu, X, Chi, M, Gao, H, Zhang, D, Zeng, J, Wu, P, and Zhu, M (2016c) The study of post-derailment measures to limit the extent of a derailment.
Proc IMechE, Part F J. Rail Rapid Transit, Vol. 230, No. 1, pp. 64-76. 10.1177/0954409714526586.