NUMERICAL STUDY OF EARTH PRESSURE ACTING ON SEMI-UNDERGROUND STRUCTURES DURING AND AFTER EARTHQUAKES

Q4 Environmental Science

Journal of Japan Society of Civil Engineers Pub Date : 2022-01-01 DOI:10.2208/journalofjsce.10.1_111

Toru Igarashi, S. Sawada, H. Goto

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引用次数: 0

Abstract

Semi-underground structures are often constructed for storing water. Most parts of their bodies are placed underground and the roofs are covered with thin or no soil layers. The current earthquake design standard for semi-underground structures mainly considers the earth pressure, which is proportional to ground acceleration and displacement. Detailed mechanisms of active and passive earth pressures are not considered in the current design method. In this paper, we study the dynamic interaction mechanism between ground and side wall of semi-underground structures during earthquakes based on FEM analysis. Earth pressures during and after the earthquake, which result from shear-failures in the surrounding soil, are especially examined. The results show that effects of soil failure enlarge the earth pressure. Passive earth pressure only acts on the shallow part of the wall, whereas active earth pressure acts on the deeper part as well, during earthquake. The residual earth pressure acts after earthquake, which is intermediate between the maximum and minimum values during earthquake.

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地震时及震后作用于半地下结构的土压力数值研究

半地下结构通常是用来蓄水的。他们身体的大部分被埋在地下，屋顶上覆盖着薄薄的土层或没有土层。现行半地下结构抗震设计标准主要考虑土压力，土压力与地面加速度和位移成正比。目前的设计方法没有考虑主动和被动土压力的详细机理。本文基于有限元分析方法，研究了半地下结构在地震作用下地面与侧墙的动力相互作用机理。特别研究了地震期间和地震后由周围土体剪切破坏引起的土压力。结果表明，土体破坏的影响使土压力增大。地震时被动土压力只作用于墙体的浅部，而主动土压力也作用于较深的部分。残余土压力在地震后发生作用，在地震时处于最大值和最小值之间。

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

Journal of Japan Society of Civil Engineers Environmental Science-Environmental Engineering

CiteScore

0.60

自引率

0.00%

发文量