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Published: Građevinar 73 (2021) 8
Paper type: Scientific research paper
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Numerical investigation of seismic behaviour of railway embankments in cold regions

Tuo Chen, Yanhu Mu, Jianzhou Wang, Junwei Zhang

Abstract

To investigate more fully seismic behaviour of the Qinghai-Tibet railway embankment, a comprehensive discussion and a781nalysis is conducted in this paper by applying a numerical technique. Specifically, the one dimensional equivalent linear ground response analysis was conducted in permafrost regions. On this basis, the seismic response of a typical railway embankment was further studied by applying the nonlinear dynamic finite element analysis method. As a result, nonlinear behaviour of permafrost sites was determined, and the dynamic acceleration, velocity and displacement of the embankment was discussed and the quantitative assessment was approximately estimated. The results indicate that the dynamic response of the embankment has distinct nonlinear characteristics. The peak ground acceleration coefficient at the embankment shoulder is larger than the natural ground surface, marking a 73% increase compared to the coefficient on the natural ground surface. When the seismic intensity reaches a certain value, a plastic zone gradually appears in the embankment, and a continuous extension of the plastic zone can be noted with an increase in peak acceleration of the input seismic wave. The findings of this research may provide an additional insight and have significant implications for further research of cold regions.

Keywords
permafrost, seismic response, dynamic behavior, plastic zone

HOW TO CITE THIS ARTICLE:

Chen, T., Mu, Y., Wang, J., Zhang, J.: Numerical investigation of seismic behaviour of railway embankments in cold regions, GRAĐEVINAR, 73 (2021) 8, pp. 781-790, doi: https://doi.org/10.14256/JCE.2814.2019

OR:

Chen, T., Mu, Y., Wang, J., Zhang, J. (2021). Numerical investigation of seismic behaviour of railway embankments in cold regions, GRAĐEVINAR, 73 (8), 781-790, doi: https://doi.org/10.14256/JCE.2814.2019

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This paper is licensed under a Creative Commons Attribution 4.0 International License.
Authors:
Chen Tuo WEB
Tuo Chen
China University of Mining and Technology
State Key Laboratory for Geomechanics and Deep Underground Engineering
b. Mu yanhu WEB
Yanhu Mu
Chinese Academy of Sciences
State Key Laboratory of Frozen Soil Engineering
c. Wang jianzhou WEB
Jianzhou Wang
China University of Mining and Technology
d. Zhang junwei WEB
Junwei Zhang
Southwest Petroleum University
School of Geoscience and Technology