Reducing the lateral displacement of lead rubber bearing isolators under the near field earthquakes by crosswise dissipaters connected to rigid support structure

Stavební obzor - Civil Engineering Journal Pub Date : 2021-12-31 DOI:10.14311/cej.2021.04.0066

Kourosh Talebi Jouneghani

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Abstract

The purpose of base isolation is to absorb earthquake energy, prolong the life of the structure, and enable the structure to be similar to a rigid body. However, since resonance can occur due to the closeness of the period of structures to the long period and large velocity pulses of the near field earthquakes, the stability of these buildings greatly reduces, and with the large displacement above isolation level, sometimes, tendency of overturning is created in isolators leading to their destruction. The main objective of this study is to significantly reduce the lateral displacement of base isolation subjected to near field earthquakes. In this research, seismic response calculation has been carried out for five steel moment frame structure with the 3, 5, 8, 11, and 14 stories in two states of with and without stiff core structure and energy dissipaters. The analyses has been done under fourteen scaled records of seven near-source and seven far-source earthquakes. It has been shown that the lateral displacement of base isolation system can be reduced by 87% for low-rise buildings, and 77% for high-rise buildings.

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通过与刚性支撑结构横向连接，减少铅橡胶支座隔震器在近场地震作用下的侧向位移

基础隔震的目的是吸收地震能量，延长结构寿命，使结构类似于刚体。然而，由于结构周期与近场地震的长周期、大速度脉冲接近，会产生共振，使得这些建筑物的稳定性大大降低，隔震水平以上的大位移有时会使隔震器产生倾覆倾向，导致其破坏。本研究的主要目的是在近场地震作用下显著减小隔震基础的侧向位移。本研究分别对3层、5层、8层、11层和14层的5层钢弯矩框架结构在有无刚核结构和消能两种状态下进行了地震反应计算。这些分析是在7次近源地震和7次远源地震的14次尺度记录下进行的。研究表明，基础隔震系统对低层建筑的横向位移可减小87%，对高层建筑的横向位移可减小77%。

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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Stavební obzor - Civil Engineering Journal

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