Study on Dynamic Response of Pile Foundation in Elastoplastic Soil Under Horizontal Loads

The elastoplastic model can more accurately simulate the elastoplastic behavior of soil in the process of loading, so as to determine the soil resistance more accurately, which holds great significance in calculating the bearing capacity of pile foundations. However, the current study has not found...

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Published in	Buildings (Basel) Vol. 14; no. 12; p. 3951
Main Authors	Gu, Xiaoqing, Shu, Jiaqing, Wang, Yuxuan, Wang, Pengpeng, Zhu, Mingxing
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.12.2024
Subjects	Amplitudes Analysis Bending moments Cyclic loads Differential equations Dynamic response Elastoplasticity Exact solutions horizontal cyclic load Load resistance Mathematical models Mechanical properties Numerical methods Pile bearing capacities pile bending moment pile displacement Pile foundations plastic height Soil analysis Soil bearing capacity Soil resistance Soils Stiffness
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Abstract	The elastoplastic model can more accurately simulate the elastoplastic behavior of soil in the process of loading, so as to determine the soil resistance more accurately, which holds great significance in calculating the bearing capacity of pile foundations. However, the current study has not found that the elasticity of soil is taken into account to analyze the dynamic behavior of pile foundations. To study the dynamic response of pile foundation under horizontal cyclic load, theoretical calculation methods and model tests are applied. Based on the flexural differential equation of pile and considering the inertia force of the pile under harmonic load, the analytical solutions for the displacement and bending moment of pile foundation under horizontal cyclic load are obtained. The accuracy of the calculation method is confirmed through comparison with experimental results. An analysis is conducted to examine the impacts of harmonic load amplitude and frequency, foundation reaction coefficient, and pile bending stiffness on the plastic height. The changing rules of the pile bending moment and pile displacement with harmonic load amplitude, foundation reaction coefficient, and pile bending stiffness are studied. By comparing the theoretical and experimental results with numerical methods, it is found that the general trend of the experimental and theoretical results is consistent. It is found that as the harmonic load frequency increases, the foundation reaction coefficient decreases, and the harmonic load amplitude increases, there is a corresponding augmentation in the plastic height of the soil, pile displacement, and bending moment.
AbstractList	The elastoplastic model can more accurately simulate the elastoplastic behavior of soil in the process of loading, so as to determine the soil resistance more accurately, which holds great significance in calculating the bearing capacity of pile foundations. However, the current study has not found that the elasticity of soil is taken into account to analyze the dynamic behavior of pile foundations. To study the dynamic response of pile foundation under horizontal cyclic load, theoretical calculation methods and model tests are applied. Based on the flexural differential equation of pile and considering the inertia force of the pile under harmonic load, the analytical solutions for the displacement and bending moment of pile foundation under horizontal cyclic load are obtained. The accuracy of the calculation method is confirmed through comparison with experimental results. An analysis is conducted to examine the impacts of harmonic load amplitude and frequency, foundation reaction coefficient, and pile bending stiffness on the plastic height. The changing rules of the pile bending moment and pile displacement with harmonic load amplitude, foundation reaction coefficient, and pile bending stiffness are studied. By comparing the theoretical and experimental results with numerical methods, it is found that the general trend of the experimental and theoretical results is consistent. It is found that as the harmonic load frequency increases, the foundation reaction coefficient decreases, and the harmonic load amplitude increases, there is a corresponding augmentation in the plastic height of the soil, pile displacement, and bending moment.
Audience	Academic
Author	Wang, Pengpeng Wang, Yuxuan Zhu, Mingxing Gu, Xiaoqing Shu, Jiaqing
Author_xml	– sequence: 1 givenname: Xiaoqing surname: Gu fullname: Gu, Xiaoqing – sequence: 2 givenname: Jiaqing surname: Shu fullname: Shu, Jiaqing – sequence: 3 givenname: Yuxuan surname: Wang fullname: Wang, Yuxuan – sequence: 4 givenname: Pengpeng surname: Wang fullname: Wang, Pengpeng – sequence: 5 givenname: Mingxing orcidid: 0000-0002-8864-4489 surname: Zhu fullname: Zhu, Mingxing
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SubjectTerms	Amplitudes Analysis Bending moments Cyclic loads Differential equations Dynamic response Elastoplasticity Exact solutions horizontal cyclic load Load resistance Mathematical models Mechanical properties Numerical methods Pile bearing capacities pile bending moment pile displacement Pile foundations plastic height Soil analysis Soil bearing capacity Soil resistance Soils Stiffness
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Title	Study on Dynamic Response of Pile Foundation in Elastoplastic Soil Under Horizontal Loads
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