Comparative Study of the Non-Linear Dynamic Behaviour of Different Seismic Isolation Systems

Advanced Engineering Forum Pub Date : 2023-01-10 DOI:10.4028/p-97i58z

Hamouche Sabiha, Bennacer Lyacine, Nassim Kernou

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Abstract

To mitigate the effect of earthquake on the structure, the base isolation technique is the best alternative as a seismic protection system. In this research, a two-degree-of-freedom (2DOF) equivalent model is modelled based on a real eight-level reinforced concrete structure damaged by the Boumerdes earthquake in 2003 is presented. The basic isolation systems considered are four models namely: the first system is a high damping isolator (HDBR), the second system is the friction pendulum isolator (FPS). The third model of the base isolation system is a non-linear model with two horizontal and rotational stiffness springs (SHRS), and finally the last model presents a bilinear spring (SB). The isolators are designed according to the UBC-97 code. Earthquake recordings from Dar-El-Beida of the 2003 Boumerdes earthquake were used as seismic load. A dynamic analysis of the comparative temporal responses of the structure was performed by comparing its dynamic behaviour with that of the fixed base structure. The results obtained reveal a reduction in base shear, stage drift and stage acceleration and an increase in displacement and time period for the structure isolated at the base. The results are presented in tables and graphs.

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不同隔震系统非线性动力性能的比较研究

为了减轻地震对结构的影响，基础隔震技术是抗震设防的最佳选择。本文以2003年Boumerdes地震破坏的8层钢筋混凝土结构为研究对象，建立了2自由度等效模型。考虑的基本隔离系统有四种模型，即:第一种系统是高阻尼隔离器(HDBR)，第二种系统是摩擦摆隔离器(FPS)。基础隔震系统的第三个模型是一个具有两个水平和旋转刚度弹簧(SHRS)的非线性模型，最后一个模型是一个双线性弹簧(SB)。隔离器按照UBC-97规范设计。2003年布默德斯地震的Dar-El-Beida地震记录被用作地震荷载。通过将其动力行为与固定基础结构的动力行为进行比较，对结构的相对时间响应进行了动力分析。结果表明，在基底隔离的结构，基底剪切、阶段漂移和阶段加速度减小，位移和时间周期增加。结果用表格和图表表示。

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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Advanced Engineering Forum

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