Influence of unsupported sleepers on the dynamic stability of ballasted bed based on wheelset impact tests

Juzhen Liu, Shuai Du, Ganzhong Liu, Ping Wang, Rong Chen, Xiankui Wei, Hao Liu

Railway Engineering Science ›› 2023, Vol. 31 ›› Issue (1) : 52-60.

Railway Engineering Science ›› 2023, Vol. 31 ›› Issue (1) : 52-60. DOI: 10.1007/s40534-022-00292-z
Article

Influence of unsupported sleepers on the dynamic stability of ballasted bed based on wheelset impact tests

Author information +
History +

Abstract

The unsupported sleeper can change the load characteristics of ballast particles and thus affect the dynamic stability of a ballasted bed. In this work, a laboratory test was constructed on a ballasted track containing unsupported sleepers. The ballasted track was excited by a wheelset, and the influence of unsupported sleepers on the dynamic stability of a ballasted bed was studied. The results show that the main frequency of the sleeper vibration appeared at 670 Hz, and the first-order rigid vibration mode at the frequency of 101 Hz had a significant effect on the condition without the unsupported sleeper. When the sleepers were continuously unsupported, the vibration damping effect of ballasted bed within the frequency range of 0–450 Hz was better than that at higher frequencies. Within the frequency range of 70–250 Hz, the vibration damping effect of the ballasted bed with unsupported sleepers was better than that without the unsupported sleeper. Owing to the excitation from the wheelset impact, the lateral resistance of the ballasted bed with unsupported sleepers whose hanging heights were 30, 60, and 90 mm increased by 37.43%, 12.25%, and 18.23%, respectively, while the lateral resistance of the ballasted bed without the unsupported sleeper remained basically unchanged. The unsupported sleeper could increase the difference in the quality of the ballasted bed between two adjacent sleepers. In addition, test results show that the hanging height of the unsupported sleeper had little effect on the lateral resistance of a ballasted bed without external excitation, but had an obvious effect on the rate of change of the lateral resistance of a ballasted bed and the acceleration amplitude of the sleeper vibration under the wheelset impact.

Cite this article

EndNote

Ris (Procite)

Bibtex

Download citation ▾
Juzhen Liu, Shuai Du, Ganzhong Liu, Ping Wang, Rong Chen, Xiankui Wei, Hao Liu. Influence of unsupported sleepers on the dynamic stability of ballasted bed based on wheelset impact tests. Railway Engineering Science, 2023, 31(1): 52‒60 https://doi.org/10.1007/s40534-022-00292-z

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1.]
Esveld C. Modern railway track 2001 2 Delft Delft University of Technology
[2.]
Indraratna B, Salim W, Rujikiatkamjorn C. Advanced rail geotechnology-ballasted track 2011 1 London CRC Press
CrossRef Google scholar
[3.]
Ishida M, Moto T, Kono A . Influence of loose sleeper on track dynamics and bending fatigue of rail welds. Q Rep RTRI 1999, 40 2 80-85
CrossRef Google scholar
[4.]
Naseri R, Mohammadzadeh S. Nonlinear train–track–bridge interaction with unsupported sleeper group. Int J Railw Res 2020, 7 1 11-28
[5.]
Zhang S, Xiao X, Wen Z . Effect of unsupported sleepers on wheel/rail normal load. Soil Dyn Earthq Eng 2008, 28 8 662-673
CrossRef Google scholar
[6.]
Liu GZ, Dai JC, Wang P et al (2022) Analysis of the breakage parameters of railway ballast based on the discrete element method. J Zhejiang Univ Sci A. https://doi.org/10.1631/jzus.A2200019
[7.]
Zakeri JA, Fattahi M, Ghanimoghadam MM. Influence of unsupported and partially supported sleepers on dynamic responses of train–track interaction. J Mech Sci Technol 2015, 29 6 2289-2295
CrossRef Google scholar
[8.]
Kim JK, Lee S, Jang SY . Evaluation of the influence factors on the ballast settlement by using the discrete element method. J Korean Soc Civ Eng 2016, 36 4 715-722
[9.]
Liu G, Li P, Wang P . Study on structural health monitoring of vertical vibration of ballasted track in high-speed railway. J Civ Struct Heal Monit 2021, 11 2 451-463
CrossRef Google scholar
[10.]
Hu P, Zhang C, Chen SJ . Dynamic responses of bridge–embankment transitions in high speed railway: field tests and data analyses. Eng Struct 2018, 175 565-576
CrossRef Google scholar
[11.]
Ma M, Liu W, Li Y . An experimental study of vibration reduction of a ballasted ladder track. Proc Inst Mech Eng Part F J Rail Rapid Transit 2017, 231 9 1035-1047
CrossRef Google scholar
[12.]
Wang M, Cai C, Zhu S . Experimental study on dynamic performance of typical nonballasted track systems using a full-scale test rig. Proc Inst Mech Eng Part F J Rail Rapid Transit 2017, 231 4 470-481
CrossRef Google scholar
[13.]
Guo Y, Zong L, Markine V . Experimental and numerical study on lateral and longitudinal resistance of ballasted track with nailed sleeper. Int J Rail Transp 2022, 10 1 114-132
CrossRef Google scholar
[14.]
Liu J, Wang P, Liu G . Influence of a tamping operation on the vibrational characteristics and resistance-evolution law of a ballasted bed. Constr Build Mater 2020, 239 117879
CrossRef Google scholar
[15.]
Zeng Z, Song S, Wang W . Ballast bed resistance characteristics based on discrete-element modeling. Adv Mech Eng 2018, 10 6 1687814018781461
CrossRef Google scholar
[16.]
Khatibi F, Esmaeili M, Mohammadzadeh S. DEM analysis of railway track lateral resistance. Soils Found 2017, 57 4 587-602
CrossRef Google scholar
[17.]
Jing G, Luo Q, Wang Z . Micro-analysis of hanging sleeper dynamic interactions with ballasted bed. J Vibroeng 2015, 17 1 444-454
[18.]
Sadeghi J, Zakeri JA, Tolou Kian AR. Effect of unsupported sleepers on rail track dynamic behaviour. Proc Inst Civ Eng Transp 2018, 171 5 286-298
[19.]
Sysyn M, Przybylowicz M, Nabochenko O . Mechanism of sleeper–ballast dynamic impact and residual settlements accumulation in zones with unsupported sleepers. Sustainability 2021, 13 14 7740
CrossRef Google scholar
[20.]
Yamaoka D, Kusuda M, Tanaka H . Proposal for unsupported sleeper detection method and utilization in track maintenance. Q Rep RTRI 2022, 63 1 25-30
CrossRef Google scholar
[21.]
Zou CH, Zhou SH, Wang BL . Model test study of influence of differential subgrade settlement on ballasted track settlement. J Tongji Univ (Nat Sci) 2011, 39 6 862-869(in Chinese)
[22.]
Kuo C-M, Huang C-H, Chen Y-Y. Vibration characteristics of floating slab track. J Sound Vib 2008, 317 3–5 1017-1034
CrossRef Google scholar
[23.]
Van Dyk BJ, Edwards JR, Dersch MS . Evaluation of dynamic and impact wheel load factors and their application in design processes. Proc Inst Mech Eng Part F J Rail Rapid Transit 2017, 231 1 33-43
CrossRef Google scholar
[24.]
Chakraborty S, Jha KK, Patra A. Design of IIR digital highpass butterworth filter using analog to digital mapping technique. Int J Comput Appl 2012, 52 7 6-11
[25.]
Nussbaumer HJ. Fast fourier transform and convolution algorithms 1981 Berlin Springer
CrossRef Google scholar
[26.]
Aikawa A (2018) Vertical natural vibration modes of ballasted railway track. In: Yalçıner H, Farsangi EN (ed) New trends in structural engineering, IntechOpen, https://doi.org/10.5772/intechopen.79738
[27.]
Sheng X, Zhao C, Wang P . Study on transmission characteristics of vertical rail vibrations in ballast track. Math Probl Eng 2017, 2017 1-13
CrossRef Google scholar
[28.]
Zakeri JA. Perpiñà X. Lateral resistance of railway track. Reliability and safety in railway 2012 London IntechOpen 357-374
[29.]
Ministry of Railways of the People’s Republic of China. Design code for seamless railway tracks (TB10015–2012) 2013 Beijing: China Railway Publishing House
[30.]
Morris AS. Statistical analysis of measurements subject to random errors. Measurement and instrumentation 2016 Amsterdam Elsevier 75-130
CrossRef Google scholar
Funding
Innovative Research Group Project of the National Natural Science Foundation of China(52008395)

Accesses

Citations

Detail
Sections
Recommended

/