Dynamic responses of high-speed railway transition zone with various subgrade fillings
Hu, P.; Zhang, C.; Wen, S.; Wang, Y.
Computers and Geotechnics 108: 17-26
2019
ISSN/ISBN: 0266-352X
DOI: 10.1016/j.compgeo.2018.12.011
Accession: 066947019
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Related References
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Gao, Y; Huang, H; Ho, C L.; Hyslip, J P. 2017: High speed railway track dynamic behavior near critical speed Soil Dynamics and Earthquake Engineering 101: 285-294
Madshus, C.; Kaynia, A.M. 2000: High-speed railway lines on soft ground : Dynamic behaviour at critical train speed J. Sound Vib 231(3): 689-701
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Xu, Q.; Sun, H.; Wang, L.; Xu, L.; Chen, W.; Lou, P. 2021: Influence of Vehicle Number on the Dynamic Characteristics of High-Speed Train-CRTS IIi Slab Track-Subgrade Coupled System Materials 14(13)
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He, X.I.A.; Nan, Z.H.A.N.G. 2005: Dynamic analysis of railway bridge under high-speed trains Computers and Structures 83(23-24): 1891-1901
Willford, M.; Hicyilmaz, K.; Pratt, K. 2004: Dynamic considerations in the design of high-speed railway bridges Transportation Research Record (1863): 28-36