Seismic reduction principle and response analysis of variable damping viscous damper system

IF 3.5 Q1 ENGINEERING, MULTIDISCIPLINARY
Shahe Liang, Zhiqiang Zhang, Aiqun Li
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引用次数: 0

Abstract

PurposeA new type of variable damping viscous damper is developed to meet the settings of different damping parameter values at different working stages. Its main principle and design structure are introduced, and the two-stage and multi-stage controllable damping methods are proposed.Design/methodology/approachThe theoretical calculation formulas of the damping force of power-law fluid variable damping viscous damper at elongated holes are derived, aiming to provide a theoretical basis for the development and application of variable damping viscous dampers. For the newly developed variable damping viscous damper, the dynamic equations for the seismic reduction system with variable damping viscous dampers under a multi-degree-of-freedom system are established. A feasible calculation and analysis method is proposed to derive the solution process of time history analysis. At the same time, a program is also developed using Matlab. The dynamic full-scale test of a two-stage variable damping viscous damper was conducted, demonstrating that the hysteresis curve is complete and the working condition is stable.FindingsThrough the calculation and analysis of examples, the results show that the seismic reduction effect of high and flexible buildings using the seismic reduction system with variable damping viscous dampers is significant. The program developed is used to analyze the seismic response of a broadcasting tower using a variable damping TMD system under large earthquakes. The results indicate that the installation of variable damping viscous dampers can effectively control the maximum inter-story displacement response of TMD water tanks and can effectively consume seismic energy.Originality/valueThis method can provide a guarantee for the safe and effective operation of TMD in wind and vibration control.
可变阻尼粘滞阻尼器系统的减震原理和响应分析
目的为满足不同工作阶段不同阻尼参数值的设置,研制了一种新型变阻尼粘性阻尼器。介绍了其主要工作原理和设计结构,提出了两级和多级可控阻尼方法。推导了幂律流体变阻尼粘滞阻尼器在细长孔处阻尼力的理论计算公式,旨在为变阻尼粘滞阻尼器的开发和应用提供理论依据。针对新研制的变阻尼粘性阻尼器,建立了多自由度变阻尼粘性阻尼器减震系统的动力学方程。提出了一种可行的计算分析方法,推导出时程分析的求解过程。同时,利用Matlab编写了相应的程序。对两级变阻尼粘性阻尼器进行了动态全尺寸试验,结果表明,滞回曲线完整,工作状态稳定。结果通过算例计算分析,结果表明,变阻尼粘性阻尼器减震体系对高柔性建筑的减震效果显著。利用所编制的程序分析了某广播塔在大地震作用下的变阻尼TMD系统的地震反应。结果表明,安装变阻尼粘性阻尼器可以有效控制TMD水箱的最大层间位移响应,并能有效地消耗地震能量。该方法可为TMD在风振控制中的安全有效运行提供保障。
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来源期刊
International Journal of Structural Integrity
International Journal of Structural Integrity ENGINEERING, MULTIDISCIPLINARY-
CiteScore
5.40
自引率
14.80%
发文量
42
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