Rock and Soil Mechanics ›› 2024, Vol. 45 ›› Issue (1): 77-86.doi: 10.16285/j.rsm.2023.0099

• Fundamental Theroy and Experimental Research • Previous Articles     Next Articles

Lateral deformation prediction model of pile foundation in liquefiable site

WU Xiao-feng1, 2, ZHANG Di3, LI Xing2, WANG Yu-bing1, 4, WEN Kai5   

  1. 1. College of Civil Engineering and Architecture, Zhejiang University, Hangzhou, Zhejiang 310058, China; 2. Hangzhou Qianjiang New City Investment Group Co., Ltd., Hangzhou, Zhejiang 310020, China; 3. Hangzhou Qianjiang New City Construction and Development Co., Ltd., Hangzhou, Zhejiang 310002, China; 4. Center for Hypergravity Experimental and Interdisciplinary Research, Zhejiang University, Hangzhou, Zhejiang 310058, China; 5. Department of Civil and Environmental Engineering, Imperial College London, London, UK
  • Received:2023-02-01 Accepted:2023-05-19 Online:2024-01-10 Published:2024-01-10
  • Supported by:
    This work was supported by the Postdoctoral Science Advanced Programs of Zhejiang Province (ZJ2022113), the Basic Science Center Program of the National Natural Science Foundation of China (51988101) and the National Natural Science Foundation of China (51808490).

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Abstract: Field measurements in offshore areas have revealed that wind turbines are mainly exposed to large-amplitude and long-duration horizontal environmental loads, and those located in high-intensity areas are particularly susceptible to seismic activity during service life. However, it remains unclear how the initial horizontal loads affect the seismic behaviour of offshore wind turbines, particularly with respect to pile-soil interaction. To address this issue, this study employed the ZJU-400 centrifuge shaking table to conduct a series of centrifuge tests on a single rock-socketed pile in liquefiable saturated sands, with its prototype located in the offshore wind farm in Fujian waters. The experimental results demonstrate the bending moment and displacement responses of the pile subjected to the seismic loads in combination with initial horizontal loads. The proposed p-y model introduces a parameter related to excess pore water pressure to quantify its weakening effects on pile-soil interaction as observed in the centrifuge tests. When combined with the nonlinear Winkler foundation beam model, the proposed post-earthquake prediction model can effectively estimate the bending moment and displacement distribution of monopiles under initial lateral loading.

Key words: offshore wind turbines, initial lateral load effect, dynamic p-y curves, centrifuge shaking table

CLC Number: 

  • TU 435
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