Simplified analytical solution for horizontal seismic response of single piles to vertically incident S waves

doi:10.16285/j.rsm.2022.5403

Rock and Soil Mechanics ›› 2023, Vol. 44 ›› Issue (2): 327-336.doi: 10.16285/j.rsm.2022.5403

Simplified analytical solution for horizontal seismic response of single piles to vertically incident S waves

ZHENG Chang-jie^{1, 2}, CUI Yi-qin^{1, 2}, WU Chen^{1, 2}, LUO Tong^{1, 2}, LUAN Lu-bao³

1. Fujian Provincial Key Laboratory of Advanced Technology and Informatization in Civil Engineering, Fujian University of Technology, Fuzhou, Fujian 350118, China 2. School of Civil Engineering, Fujian University of Technology, Fuzhou, Fujian 350118, China 3. College of Environmental Science and Technology, Ocean University of China, Qingdao, Shandong 266100, China

Online:2023-02-23 Published:2023-04-10
Contact: LUAN Lu-bao, male, born in 1989, PhD, Postdoctor, research interests: pile foundation dynamics. E-mail: luanlub@163.com E-mail:zcj@fjut.edu.cn
About author:ZHENG Chang-jie, male, born in 1989, PhD, Professor, research interests: pile foundation dynamics and geotechnical seismic engineering.
Supported by:
the Open Fund of Key Laboratory of New Technology for Construction of Cities in Mountain Area of Ministry of Education (LNTCCMA-20220108), the National Natural Science Foundation of China (52178318), the Natural Science Foundation of Fujian Province (2021J011056), and the Young Elite Scientists Sponsorship Program by CAST (2021QNRC001).

Abstract

Abstract: Based on the continuous medium model and the pile-soil interaction, the horizontal seismic response of a single pile subjected to vertically propagating S waves was investigated by regarding the single pile as a one-dimensional linearly elastic beam. The time-harmonic displacement of bedrock was introduced as the vertically propagating S waves, and the horizontal dynamic impedance function of the soil was derived by the governing equations of the plane strain model. Analytical solutions for the seismic response of the single pile subjected to vertically propagating S waves were obtained by subsuming soil impedance into the governing equation of the single pile and considering the boundary conditions at pile top and toe. The solution was verified by comparing it to the results of existing studies. Furthermore, as pile-soil modulus ratio increases, the minimum value of the kinematic response factor decreases. The kinematic response factor is not particularly sensitive to the large pile slenderness ratio and the soil material damping. For the horizontal amplification factor at the pile top, the increase of the pile-soil modulus ratio only suppresses the amplification at high resonance frequency, and the large pile slenderness ratio has the trivial effect on it. As the soil material damping increases, the amplification at resonance frequency gets considerably suppressed. The seismic response of the pile is obviously affected by the pile-soil modulus ratio only when the pile slenderness ratio is small, and it decreases with the increase of the pile-soil modulus ratio.

Key words: S waves, pile foundation, seismic response, analytical solution

ZHENG Chang-jie, CUI Yi-qin, WU Chen, LUO Tong, LUAN Lu-bao, . Simplified analytical solution for horizontal seismic response of single piles to vertically incident S waves[J]. Rock and Soil Mechanics, 2023, 44(2): 327-336.

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Simplified analytical solution for horizontal seismic response of single piles to vertically incident S waves

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