Event-triggered semi-active TLCD for ground motion-induced vibration control

Smart Materials and Structures Pub Date : 2024-07-15 DOI:10.1088/1361-665x/ad6368

Hao Ding, Jian Zhang, Jian Song, Xiaojun Fang, Jinting Wang

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Abstract

One potential drawback of tuned liquid column dampers (TLCDs) is their relatively low control efficiency during the initial stage of structural vibration caused by external excitations. This is because satisfactory control effects can only be achieved when the liquid inside TLCD is fully oscillating, which is not the case during the initial stage. To solve this problem, in this study, an event-triggered semi-active technique is creatively proposed to improve the vibration reduction efficiency of TLCDs during the initial stage. The fundamental idea of the proposed approach is to provide an initial displacement to the liquid column via baffles, and then release the constraints on the initial liquid displacement at an appropriate time to achieve the rapid activation of TLCDs. A strategy from the standpoint of phase difference between liquid column motion and structural motion is proposed to determine the triggering conditions (i.e., when to release the constraints). The effectiveness of the proposed semi-active system is examined under both harmonic and stochastic excitations. The results show that the proposed strategy successfully improves the vibration suppression performance of TLCDs in the early stage of structural vibration.

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用于地动诱发振动控制的事件触发式半主动 TLCD

调谐液柱阻尼器（TLCD）的一个潜在缺点是，在外部激励引起结构振动的初始阶段，其控制效率相对较低。这是因为只有当 TLCD 内部的液体完全振荡时，才能达到令人满意的控制效果，而在初始阶段并非如此。为解决这一问题，本研究创造性地提出了一种事件触发半主动技术，以提高 TLCD 在初始阶段的减振效率。所提方法的基本思路是通过挡板为液柱提供初始位移，然后在适当的时候解除对初始液体位移的约束，实现 TLCD 的快速激活。从液柱运动和结构运动的相位差角度出发，提出了一种确定触发条件（即何时释放约束）的策略。在谐波和随机激励下，对所提出的半主动系统的有效性进行了检验。结果表明，所提出的策略成功地改善了 TLCD 在结构振动早期阶段的振动抑制性能。

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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Smart Materials and Structures

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