Studying Characteristics of Train-Induced Ground Vibrations Adjacent to an Elevated Railway by Field Experiments
Publication: Journal of Geotechnical and Geoenvironmental Engineering
Volume 133, Issue 10
Abstract
This paper investigates the characteristics of the ground vibration induced by moving trains on elevated railways using a number of field measurements at various train speeds. The experimental results indicate that the vibration at the dominant frequencies is quite large in both the vertical and horizontal directions, where the dominant frequencies and their influence factors can be evaluated using two simple theoretical equations deducted from the trainload in the frequency domain. Furthermore, the vibration at the dominant frequencies increases almost proportionally to the train speed, except at the resonance condition, which can be found both in field experiments and using the equation of the influence factor.
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Acknowledgments
This study was supported by the National Science Council, R.O.C., under Contract No. NSC89-2218-E-006-019.
References
Auersch, L. (2005). “The excitation of ground vibration by rail traffic: Theory of vehicle-track-soil interaction and measurements on high-speed lines.” J. Sound Vib., 284(1–2), 103–132.
Degrande, G., and Schillemans, L. (2001). “Free field vibrations during the passage of a Thalys high-speed train at variable speed.” J. Sound Vib., 247(1), 131–144.
Ju, S. H. (2004). “Three-dimensional analyses of wave barriers for reduction of train-induced vibrations.” J. Geotech. Geoenviron. Eng., 130(7), 740–748.
Ju, S. H., and Lin, H. T. (2003a). “Resonance characteristics of high-speed trains passing simply supported bridges.” J. Sound Vib., 267(5), 1127–1141.
Ju, S. H., and Lin, H. T. (2003b). “Numerical investigation of a steel arch bridge and interaction with high-speed trains.” Eng. Struct., 25(2), 241–250.
Ju, S. H., and Lin, H. T. (2004). “Analysis of train-induced vibrations and vibration reduction schemes above and below critical Rayleigh speeds by finite element method.” Soil Dyn. Earthquake Eng., 24(12), 993–1002.
Ju, S.-H., and Lin, H.-T. (2006). “Reduction of vibrations due to foundation slabs.” J. Geotech. Geoenviron. Eng., 132(4), 511–520.
Kaynia, A. M., Madshus, C., and Zackrisson, P. (2000). “Ground vibration from high-speed trains: Prediction and countermeasure.” J. Geotech. Geoenviron. Eng., 126(6), 531–537.
Kwark, J. W., Choi, E. S., Kim, Y. J., Kim, B. S., and Kim, S. I. (2004). “Dynamic behavior of two-span continuous concrete bridges under moving high-speed train.” Comput. Struct., 82(4–5), 463–474.
Li, J. Z., and Su, M. B. (1999). “The resonant vibration for a simply supported girder bridge under high-speed trains.” J. Sound Vib., 224(5), 897–915.
Lombaert, G., and Degrande, G. (2003). “The experimental validation of a numerical model for the prediction of the vibrations in the free field produced by road traffic.” J. Sound Vib., 262(2), 309–331.
Madshus, C., and Kaynia, A. M. (2000). “High-speed railway lines on soft ground: Dynamic behaviour at critical train speed.” J. Sound Vib., 231(3), 689–701.
Takemiya, H. (2003). “Simulation of track-ground vibrations due to a high-speed train: The case of X-2000 at Ledsgard.” J. Sound Vib., 261(3), 503–526.
Wang, J. F., Lin, C. C., and Chen, B. L. (2003). “Vibration suppression for high-speed railway bridges using tuned mass dampers.” Int. J. Solids Struct., 40(2), 465–491.
Xia, H., Zhang, N., and Cao, Y. M. (2005). “Experimental study of train-induced vibrations of environments and buildings.” J. Sound Vib., 280(3–5), 1017–1029.
Xia, H., Zhang, N., and De Roeck, G. (2003). “Dynamic analysis of high speed railway bridge under articulated trains.” Comput. Struct., 81(26–27), 2467–2478.
Yang, Y. B., Yau, J. D., and Hsu, L. C. (1997). “Vibration of simple beams due to trains moving at high speeds.” Eng. Struct., 19(11), 936–944.
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© 2007 ASCE.
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Received: Apr 7, 2006
Accepted: Feb 15, 2007
Published online: Oct 1, 2007
Published in print: Oct 2007
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