Seismic Ground Motion Analysis of Saturated Frozen Soil Free Field under S-Wave Incidence

IF 0.6 4区工程技术 Q4 MECHANICS Mechanics of Solids Pub Date : 2024-07-12 DOI:10.1134/S0025654424603008

Hao Jiao, Qiang Ma

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Abstract

An analytical solution has been derived for seismic ground motion in a saturated frozen soil free field under plane S-wave incidence. This solution was achieved by establishing a model based on the theory of elastic wave propagation in single-phase elastic media and frozen saturated porous media. Numerical calculations were conducted to analyze the seismic ground motion and assess the influence of various physical and mechanical parameters, including incident angle, incident frequency, porosity, medium temperature, cementation parameters, and contact parameters. The analysis revealed a positive correlation between horizontal ground surface displacement and increases in incident frequency, medium temperature, Poisson’s ratio, and contact parameter. Conversely, there was a slight decrease with increased porosity. Particularly significant were the effects of incident frequency and medium temperature on horizontal ground surface displacement. Vertical displacement decreased with increases in porosity, medium temperature, Poisson’s ratio, and contact parameter. The impact of incident frequency on vertical displacement was insignificant, but noticeable variations occurred when the angle of incidence approached the critical angle.

Vertical displacement decreased with increases in porosity, medium temperature, Poisson’s ratio, and contact parameter.

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S 波入射条件下饱和冻土自由场的地震地动分析

摘要对平面 S 波入射下饱和冻土自由场中的地震地面运动进行了分析求解。该求解是通过建立基于单相弹性介质和饱和多孔冻土介质中弹性波传播理论的模型实现的。通过数值计算分析了地震地面运动，并评估了各种物理和力学参数的影响，包括入射角、入射频率、孔隙度、介质温度、胶结参数和接触参数。分析表明，地表水平位移与入射频率、介质温度、泊松比和接触参数的增加呈正相关。相反，随着孔隙度的增加，位移略有减少。入射频率和介质温度对水平地表位移的影响尤为明显。垂直位移随着孔隙率、介质温度、泊松比和接触参数的增加而减小。入射频率对垂直位移的影响不明显，但当入射角接近临界角时，会出现明显的变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Mechanics of Solids 医学-力学

CiteScore

1.20

自引率

42.90%

发文量

112

审稿时长

6-12 weeks

期刊介绍： Mechanics of Solids publishes articles in the general areas of dynamics of particles and rigid bodies and the mechanics of deformable solids. The journal has a goal of being a comprehensive record of up-to-the-minute research results. The journal coverage is vibration of discrete and continuous systems; stability and optimization of mechanical systems; automatic control theory; dynamics of multiple body systems; elasticity, viscoelasticity and plasticity; mechanics of composite materials; theory of structures and structural stability; wave propagation and impact of solids; fracture mechanics; micromechanics of solids; mechanics of granular and geological materials; structure-fluid interaction; mechanical behavior of materials; gyroscopes and navigation systems; and nanomechanics. Most of the articles in the journal are theoretical and analytical. They present a blend of basic mechanics theory with analysis of contemporary technological problems.