Research on Vibration Characteristics of a Flexible Vehicle-Ladder Track System

Huan Wang , Aijun Gu , Qiang Fan , Xing Xing , Jingyu Liu

Urban Rail Transit ›› 2024, Vol. 10 ›› Issue (1) : 13 -27.

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Urban Rail Transit ›› 2024, Vol. 10 ›› Issue (1) : 13 -27. DOI: 10.1007/s40864-023-00209-x
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Research on Vibration Characteristics of a Flexible Vehicle-Ladder Track System

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Abstract

As a means of vibration reduction, the ladder track has seen broad implementation in urban rail transit. However, issues such as increased vibration noise, rail corrugation, and fastener failure have been observed in certain sections of the ladder track during later operation. To investigate the mechanisms behind these phenomena and provide comprehensive insights into the system's response to various operational conditions, this study employed vehicle-track coupled dynamic theory to establish a three-dimensional finite element model of the flexible vehicle-ladder track system. The vibration transmission and dynamic response characteristics of the vehicle-ladder track system were analyzed. The findings revealed that the vehicle-track resonance and anti-resonance phenomena were more prominent in the medium- to low-frequency range. At specific frequencies, the wheelset exhibited various vibration modes, and the fastener force was found to closely correlate with the ladder vibration mode. Furthermore, the influence of speed on diverse components of the vehicle-ladder track system, in terms of maximum vibration and the dominant vibration frequency range, differed considerably. This study provides a more comprehensive and reasonable exploration of the modeling and dynamic behavior of vehicle-ladder track systems.

Keywords

Ladder track / Vehicle-track coupled dynamics / Vibration transmission characteristics / Vibration mode / Dynamic response

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Huan Wang, Aijun Gu, Qiang Fan, Xing Xing, Jingyu Liu. Research on Vibration Characteristics of a Flexible Vehicle-Ladder Track System. Urban Rail Transit, 2024, 10(1): 13-27 DOI:10.1007/s40864-023-00209-x

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References

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[1]

Hosking RJ, Milinazzo F. Modelling the floating ladder track response to a moving load by an infinite Bernoulli-Euler beam on periodic flexible supports. East Asia J Appl Math, 2012, 2(4): 285-308

[2]

Deng YS, Xia H, Zenda Y, Inoue H, and Qi L (2011) Experimental study of ladder track on a rail transit elevated bridge: Engineering Mechanics 28(3):49–054
[3]

Xia H, Chen J, Xia C, Inoue H, Zenda Y, Qi L. An experimental study of train-induced structural and environmental vibrations of a rail transit elevated bridge with ladder tracks. Proc Inst Mech Eng Part F J Rail Rapid Transit, 2010, 224(3): 115-124

[4]

Xia H, Deng Y, Zou Y, De Roeck G, Degrande G. Dynamic analysis of rail transit elevated bridge with ladder track. Front Archit Civ Eng China, 2009, 3: 2-8

[5]

Wakui H (1997) Ladder sleepers perform well in tests: Railway Gazette International:589–592
[6]

Yan Z-Q, Gu A-J, Liu W-N, Markine V, Liang Q-H. Effects of wheelset vibration on initiation and evolution of rail short-pitch corrugation. J Cent South Univ, 2012, 19(9): 2681-2688

[7]

Li W, Wang H, Wen Z, Du X, Wu L, Li X, Jin X. An investigation into the mechanism of metro rail corrugation using experimental and theoretical methods. Proc Inst Mech Eng Part F J Rail Rapid Transit, 2016, 230(4): 1025-1039

[8]

Wang P, Lu J, Zhao C, Chen M, Xing M. Numerical investigation of the fatigue performance of elastic rail clips considering rail corrugation and dynamic axle load. Proc Inst Mech Eng Part F J Rail Rapid Transit, 2021, 235(3): 339-352

[9]

Liu W, Ren J, Liu W, Wang W, Zhang H. In-situ tests and analysis on rail corrugation of Beijing. Metro Urban Rapid Rail Transit, 2011, 24(3): 6-9.
[10]

Grassie S. Rail corrugation: characteristics, causes, and treatments. Proc Inst Mech Eng Part F J Rail Rapid Transit, 2009, 223(6): 581-596

[11]

Xiao H, Yang S, Wang H, Wu SX. Initiation and development of rail corrugation based on track vibration in metro systems. Proc Inst Mech Eng Part F J Rail Rapid Transit, 2018, 232(9): 2228-2243

[12]

Li X, Ren Z, Wang Z. Study on rail corrugation of ladder-type sleeper track based on vibration characteristics. J China Railway Soc, 2020, 42(10): 38-44.
[13]

Li X, Li W, Shen Y, Wen Z, Jin X. Study on the rail corrugation of the ladder-type sleepers track based on the track vibration theory. J Mech Eng, 2016, 52(22): 121-128

[14]

Fan Q, Jiang W, Cai C. Dynamic performance analysis of trapezoidal sleeper track of metro train running with high speed. Railway Eng, 2021, 61(01): 114-118.
[15]

Jin H, Liu W, Wang W. Analysis of modal test of the ladder track. Eng Mech, 2013, 30(03): 459-463.
[16]

Yan Z, Markine V, Gu A, Liang Q. Optimisation of the dynamic properties of ladder track to minimise the chance of rail corrugation. Proc Inst Mech Eng Part F J Rail Rapid Transit, 2014, 228(3): 285-297

[17]

Wang YK, He ZX, Feng QB, Su C, Wang X, Bao NN, Wang HY, Yun JF, and Bai YB (2022) Influence of vibration suppression device for ladder-type sleeper track on vehicle-track system dynamic interaction: Yanbo, Influence of Vibration Suppression Device for Ladder-Type Sleeper Track on Vehicle-Track System Dynamic Interaction
[18]

Jin H, Liu WN and Zhou SH (2015) Optimization of vibration reduction ability of ladder tracks by FEM coupled with ACO: Shock and Vibration 2015
[19]

Jin H, Liu W. Vibration reduction optimization of ladder track based on an ant colony algorithm. J Cent South Univ (Sci Technol), 2012, 43(7): 2751-2756.
[20]

Yan Z, Markine V, Gu A, Liang Q. Optimization of the dynamic properties of the ladder track system to control rail vibration using the multipoint approximation method. J Vib Control, 2014, 20(13): 1967-1984

[21]

Yan ZQ, Markine V, Gu AJ, and Liang QH (2014) Optimization of the dynamic properties of the ladder track system to control rail vibration using the multipoint approximation method: Journal of Vibration and Control 20(13):1967–1984
[22]

Mohammadzadeh S and Mehrali M (2017) Dynamic response of ladder track rested on stochastic foundation under oscillating moving load: Journal of Theoretical and Applied Mechanics 55(1):281–291
[23]

Hei Y (2019) Analysis and treatment of fastener defects caused by metro rail corrugation: Railway Engineering 59(8):150–153
[24]

Yang HX, Sun X and Zhang HG (2012) Features and treatment measures for unusual rail corrugations in urban rail transit: Urban Rapid Rail Transit 25(5):105–108
[25]

Lu W, Ma S, Gao L, and Liu X (2020) Analysis of Track Irregularity Spectrum of the Beijing Subway Lines: Journal of Railway Engineering Society 37(03)
[26]

He YL, Li Zw, Sheng CL, and Chen X (2014) Characteristic analysis of track spectrums of different subway line conditions: Journal of Railway Engineering Society 8:99–104
[27]

Yan ZQ. Optimization study of the dynamic properties of ladder track to minimize the probability of rail corrugation. 2014, Beijing Jiaotong University

Funding

Natural Science Basic Research Plan in Shaanxi Province of China(2022JQ-483)

China Postdoctoral Science Foundation(2022M720533)

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