Dynamic analysis of high-speed railway train-bridge system after barge collision |
Xia, Chaoyi
(School of Civil Engineering, Beijing Jiaotong University)
Ma, Qin (CCCC Highway Consultants Co., Ltd) Song, Fudong (School of Civil Engineering, Beijing Jiaotong University) Wu, Xuan (School of Civil Engineering, Beijing Jiaotong University) Xia, He (School of Civil Engineering, Beijing Jiaotong University) |
1 | Fan, W. and Yuan, W.C. (2014), "Numerical simulation and analytical modeling of pile-supported structures subjected to ship collisions including soil-structure interaction", Ocean Eng., 91, 11-27. DOI |
2 | Fan, W., Zhang, Y.Y. and Liu, B. (2016), "Modal combination rule for shock spectrum analysis of bridge structures subjected to barge collisions", J. Eng. Mech., 142(2), 04015083. DOI |
3 | Fryba, L. (2004), "Dynamic behavior of bridges due to high speed trains", Proceedings of the Bridges for High Speed Railways, Porto, Portugal. |
4 | GB5599-85 (1985), Railway Vehicle Specification for Evaluating the Dynamic Performance and Accreditation Test, National Bureau of Standards, Beijing, China. |
5 | Getter, D.J., Consolazio, G.R. and Davidson, M.T. (2011), "Equivalent static analysis method for barge impact-resistant bridge design", J. Bridg. Eng., 16(6), 718-727. DOI |
6 | Huang, H. (2016), "The Xiangtan railway bridge on Shanghai-Kunming railway line was collided by a ship and the trains passing the bridge were delayed", Xinmin Net. |
7 | Husem, M. and Cosgun, S.I. (2016), "Behavior of reinforced concrete plates under impact loading: Different support conditions and sizes", Comput. Concrete, 18(3), 389-404. DOI |
8 | Jahangiri, M. and Zakeri, J.A. (2017), "Dynamic analysis of trainbridge system under one-way and two-way high-speed train passing", Struct. Eng. Mech., 64(1), 33-44. |
9 | Laigaard, J.J., Svensson, E. and Ennemark, E. (1996), "Shipinduced derailment on a railway bridge", Struct. Eng., 6(2), 107-112. |
10 | LS-DYNA User Manual (2007), Version 971, Livermore Software Tech. Corp., Livermore, California, U.S.A. |
11 | AASHTO (1991), Guide Specification and Commentary for Vessel Collision Design of Highway Bridges, Volume I, Final Report, Washington, U.S.A. |
12 | Chen, X.C., Zhang, Y.L., Ding, M.B. and Li, X.Z. (2016), "Study of minimum reinforcement ratios for concrete piers arranged with small amount of reinforcement under rare earthquake", Bridg. Constr., 46(5), 24-28. |
13 | Consolazio, G.R. and Michael, D. (2008), "Simplified dynamic analysis of barge collision for bridge design", J. Trans. Res. Board, 2050(2008), 13-25. DOI |
14 | Consolazio, G.R. and Cowan, D.R. (2005), "Numerically efficient dynamic analysis of barge collisions with bridge piers", J. Struct. Eng., 131(8), 1256-1266. DOI |
15 | Cowan, D.R., Consolazio, G.R. and Davidson, M.T. (2015), "Response-spectrum analysis for barge impacts on bridge structures", ASCE J. Bridg. Eng., 20(12), 04015017. DOI |
16 | Davidson, M.T., Consolazio, G.R., Getter, D.J. and Shah, F.D. (2013), "Probability of collapse expression for bridges subject to barge collision", J. Bridg. Eng., 18(4), 287-296. DOI |
17 | TG/GW209 (2014), Code for Rating Operational Performance of HSR Bridge in China, China Railway Publishing House, Beijing, China. |
18 | Dong, Z.F., Guo, J. and Wang, J.J. (2009), "Review of bridge collapse and prevention measures", Highw., 16(2), 30-32. |
19 | Yin, X.F., Liu, Y. and Kong, B. (2016), "Vibration behaviors of a damaged bridge under moving vehicular loads", Struct. Eng. Mech., 58(2), 199-216. DOI |
20 | Tu, Z. and Lu, Y. (2009), "Evaluation of typical concrete material models used in hysdrocodes for high dynamic response simulations", Int. J. Imp. Eng., 36(1), 132-146. DOI |
21 | Minorsky, N. (1953), "On interaction of non-linear oscillations", J. Frankl. Inst., 256(2), 147-165. DOI |
22 | Malvar, L.J., Crawford, J.E., Wesevich, J.W. and Simons, D. (1994), A New Concrete Material Model for DYNA3D, Karagozian & Case, Glendale, California, U.S.A. |
23 | Markovich, N., Kochavi, E. and Ben-Dor, G. (2011), "An improved calibration of the concrete damage model", Fin. Elem. Analy. Des., 47(11), 1280-1290. DOI |
24 | Meir-Dornberg, K.E. (1983), "Ship collisions, safety zones, and loading assumptions for structures in inland waterways", VDI Berichte, 496(1), 1-9. |
25 | Mosayebi, S.A., Zakeri, J.A. and Esmaeili, M. (2017), "Vehicle/track dynamic interaction considering developed railway substructure models", Struct. Eng. Mech., 61(6), 775-784. DOI |
26 | Podworna, M. (2017), "Dynamic response of steel-concrete composite bridges loaded by high-speed train", Struct. Eng. Mech., 62(2), 179-196. DOI |
27 | Rezvani, M.A., Vesali, F. and Eghbali, A. (2013), "Dynamic response of railway bridges traversed simultaneously by opposing moving trains", Struct. Eng. Mech., 36(5), 713-734. |
28 | Sha, Y.Y. and Hao, H. (2012), "Nonlinear finite element analysis of barge collision with a single bridge pier", Eng. Struct., 41, 63-76. DOI |
29 | Svensson, H. (2009), "Protection of bridge piers against ship collision", Steel Constr., 2(1), 21-35. DOI |
30 | TB10002.1 (2005), Fundamental Code for Design on Railway Bridge and Culvert in China, China Railway Publishing House, Beijing, China. |
31 | TB10621-2014 (2015), Code for Design of High Speed Railway, China Railway Publishing House, Beijing, China. |
32 | Xia, H., De Roeck, G. and Goicolea, J.M. (2012), Bridge Vibration and Controls: New Research, Nova Science Publishers Inc., New York, U.S.A. |
33 | Walters, R.A., Davidson, M.T., Consolazio, G.R. and Patev, R.C. (2017), "Characterization of multi-barge flotilla impact forces on wall structures", Mar. Struct., 51, 21-39. DOI |
34 | Wardhana, K. and Hadipriono, F.C. (2003), "Analysis of recent bridge failures in the United States", J. Perform. Constr. Facil., 17(3), 144-150. DOI |
35 | Woisin, G. (1976), "The collision tests of the GKSS", Jahrbuch Schiffbautech Gesellsch, 70, 465-487. |
36 | Xia, H., Zhang, N. and Guo, W.W. (2017), Dynamic Interaction of Train-Bridge Systems in High-Speed Railways-Theory and Applications, Springer Nature, Berlin, Germany. |
37 | Xia, C.Y., Xia, H. and De, R.G. (2014), "Dynamic response of a train-bridge system under collision loads and running safety evaluation of high-speed trains", Comput. Struct., 140(6), 23-38. DOI |
38 | Xia, C.Y., Zhang, N., Xia, H., Ma, Q. and Wu, X. (2016), "A framework for carrying out train safety evaluation and vibration analysis of a trussed-arch bridge subjected to vessel collision", Struct. Eng. Mech., 59(4), 683-701. DOI |
39 | Xuan, Y. and Zhang, D. (2001), "Derailment of train induced by vessel collision on railway bridge pier", Bridg. Abroad, 19(4), 60-64. |
40 | Yuan, P., Harik, I.E. and Davidson, M.T. (2008), Multi-Barge Flotilla Impact Forces on Bridges, Research Report, Kentucky Transportation Center, University of Kentucky, U.S.A. |
41 | Larson, O.D. (1993), Ship Collision with Bridges, Struct. Eng. Docum. No. 4, IABSE Switzerland. |
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