Effects of Loading Frequency on Soil–Pile Interaction Using Numerical Nonlinear Three-Dimensional Analyses

The kinematic interaction between piles under seismic loading has been extensively studied from analytical, experimental, and numerical perspectives. Of note, within numerical modeling, the majority of the existing literature relies on simplified approaches for characterizing the soil–pile interacti...

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Bibliographic Details
Published in:International journal of geomechanics 2025-01, Vol.25 (1)
Main Authors: Ahmadi, Mohammad M., Hadei, Sadjad, Borzeshi, Sajjad A., Hokmabadi, Arash
Format: Article
Language:English
Subjects:
Bending moments
Constitutive models
Cyclic loading
Cyclic loads
Damping
Deformation
Earthquake dampers
Earthquake loads
Kinematics
Lateral displacement
Mechanical properties
Mohr-Coulomb theory
Nonlinear response
Numerical analysis
Numerical models
Piles
Resonant frequencies
Resonant frequency
Seismic response
Soil analysis
Soil characteristics
Soil investigations
Soil mechanics
Soil properties
Soil strength
Soil stresses
Soil-pile interaction
Three dimensional analysis
Time domain analysis
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Summary:The kinematic interaction between piles under seismic loading has been extensively studied from analytical, experimental, and numerical perspectives. Of note, within numerical modeling, the majority of the existing literature relies on simplified approaches for characterizing the soil–pile interaction, which leads to the requirement for more reliable and comprehensive research. In this paper, using FLAC3D, the seismic response of the soil–pile system was investigated with a set of fully nonlinear three-dimensional (3D) numerical analyses in the time domain. This model simulated the soil strength and stiffness dependency on the stress level and soil nonlinear behavior under cyclic loading. The Mohr–Coulomb (M–C) constitutive model described the soil’s mechanical behavior, which was used with additional hysteretic damping to suit the dynamic behavior. In the framework of a parametric study, the effects of loading frequency on the response of a soil–pile system that was subjected to seismic loading were studied. The results showed that the pile response and soil characteristics, as well as the natural frequency mode of the system’s dynamic behavior, are strongly affected by the frequency of the seismic loading. Therefore, the bending moment and lateral displacement along the length of a pile increase as the loading frequency approaches the natural frequency of the system. In addition, when the loading frequency reaches a threshold value far from the fundamental frequency of the system, the effect of loading frequency on the soil–pile system response becomes negligible. In addition, the relationship between the pile diameter and maximum pile bending moment at different loading frequencies is affected by the soil properties.
ISSN:1532-3641
1943-5622
DOI:10.1061/IJGNAI.GMENG-10119