浅埋地下结构在P波、SV波和瑞利波作用下的地震反应对比分析

Xin Bao , Jingbo Liu , Hui Tan , Shutao Li , Fei Wang
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引用次数: 1

摘要

本研究基于黏弹性人工边界元和地震波输入边界子结构法,建立了可实现地震P、SV和瑞利波输入的地下结构时域地震反应分析方法和计算模型。在验证计算精度的基础上,对某浅埋双层双跨地铁车站结构在P波、SV波和瑞利波作用下的地震反应进行了对比研究。研究结果表明,不同类型地震波作用下地下结构截面内力分布特征存在一定差异。研究结果表明,不同类型地震波作用下地下结构的内力分布特征存在一定差异。在侧壁底部、地下结构中心柱顶部和底部,SV波和瑞利波入射下地下结构的截面弯矩比较接近,且显著大于P波入射下的计算结果。在结构的侧壁中心和顶层,入射瑞利波作用下的截面内力峰值大于SV波作用下的计算结果。此外,地下结构楼板在瑞利波作用下在水平方向和垂直方向均存在振动,且垂直方向的放大效应更为显著。考虑到目前地下结构的地震研究主要考虑剪切波等体波的作用,在今后的浅埋地下结构抗震设计中,应充分重视瑞利波的入射。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A comparative analysis of seismic response of shallow buried underground structure under incident P, SV and Rayleigh waves

In this study, A time-domain seismic response analysis method and a calculation model of the underground structure that can realize the input of seismic P, SV and Rayleigh waves are established, based on the viscoelastic artificial boundary elements and the boundary substructure method for seismic wave input. After verifying the calculation accuracy, a comparative study on seismic response of a shallow-buried, double-deck, double-span subway station structure under incident P, SV and Rayleigh waves is conducted. The research results show that there are certain differences in the cross-sectional internal force distribution characteristics of underground structures under different types of seismic waves. The research results show that there are certain differences in the internal force distribution characteristics of underground structures under different types of seismic waves. At the bottom of the side wall, the top and bottom of the center pillar of the underground structure, the section bending moments of the underground structure under the incidences of SV wave and Rayleigh wave are relatively close, and are significantly larger than the calculation result under the incidence of P wave. At the center of the side wall and the top floor of the structure, the peak value of the cross-sectional internal force under the incident Rayleigh wave is larger than the calculation result under SV wave. In addition, the floor of the underground structure under Rayleigh waves vibrates in both the horizontal and vertical directions, and the magnification effect in the vertical direction is more significant. Considering that the current seismic research of underground structures mainly considers the effect of body waves such as the shear waves, sufficient attention should be paid to the incidence of Rayleigh waves in the future seismic design of shallow underground structures.

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