Print Email Facebook Twitter Ground vibration induced by high speed trains on an embankment with pile-board foundation Title Ground vibration induced by high speed trains on an embankment with pile-board foundation: Modelling and validation with in situ tests Author Wang, L. (TU Delft Railway Engineering; Southwest Jiaotong University) Wang, Ping (Southwest Jiaotong University) Wei, Kai (Southwest Jiaotong University) Dollevoet, R.P.B.J. (TU Delft Railway Engineering) Li, Z. (TU Delft Railway Engineering) Date 2022 Abstract To investigate the train-induced ground vibration, an explicit time-domain, three dimensional (3D) finite element (FE) model is developed. The train, track, embankment, pile-board structure and nearby ground soils are all fully coupled in this model. The complex geometries involving the track components and pile-board structure are all modelled in detail, which makes the simulation of wave propagation more realistic from the train to the ground. The model is validated with in situ tests data collected in the Beijing-Shanghai high speed railway line. Good agreements have been achieved between the numerical results and experimental results both in time domain and frequency domain. The proposed model is thus capable of reproducing the dynamic ground response induced by a typical high speed train. Soil responses induced by different number of vehicles are compared. With more vehicles, the spectral peaks of soil responses are more prominent at the integral multiples of the vehicle passing frequency. Too few vehicles will not bring about such phenomenon, thus sufficient number of vehicles should be included in a train to properly model train-induced ground vibration. With the proposed model, the influence of the pile-board foundation on the ground vibration is investigated. It is found that the pile-board foundation can significantly attenuate the low frequency ground vibration. The attenuation of the ground vibration as a function of distance from the track is simulated and the influential factors to the local vibration amplification are investigated. It is found that soil Young's modulus and soil impedance contrast are the two main factors influential to the local vibration amplification. The softer the natural soil, the larger the amplification. The larger soil impedance contrast makes the amplification more obvious. The soil stratification and geometric discontinuity at ground surface are not the main cause of the local vibration amplification in this work. Subject Finite element modelGround vibrationHigh speed railwayLocal vibration amplificationPile-board structureSoft soil To reference this document use: http://resolver.tudelft.nl/uuid:5f2ebe0b-dc5e-4067-b496-31db3090c2a2 DOI https://doi.org/10.1016/j.trgeo.2022.100734 Embargo date 2022-07-27 ISSN 2214-3912 Source Transportation Geotechnics, 34 Bibliographical note Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public. Part of collection Institutional Repository Document type journal article Rights © 2022 L. Wang, Ping Wang, Kai Wei, R.P.B.J. Dollevoet, Z. Li Files PDF 1_s2.0_S2214391222000186_main_1.pdf 10.07 MB Close viewer /islandora/object/uuid:5f2ebe0b-dc5e-4067-b496-31db3090c2a2/datastream/OBJ/view