Experimental Research on Dynamic Performance of Viscous Fluid Damper

2021 4th International Symposium on Traffic Transportation and Civil Architecture (ISTTCA) Pub Date : 2021-11-12 DOI:10.1109/ISTTCA53489.2021.9654526

Liang Tang, Jin-liang Li, Yonglan Xie, Zhen Tian

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Abstract

Passive energy dissipation systems have been in development for several decades for enhancing the seismic performance of structures. Viscous fluid dampers are hydraulic devices that dissipate energy when stroked. They convert the kinetic energy of the structure's motion into heat. Viscous fluid dampers are applied as a kind of passive energy dissipation device for enhancing seismic resistance of structures. As a method of absorbing seismic energy, viscous dampers provide an alternative way for yielding or failure of structures. Because almost all the seismic energy can be dissipated by viscous dampers, the structure can be undamaged and ready for use immediately after an earthquake. In this study, full-scale experiments were conducted to investigate the dynamic characters of viscous fluid dampers. The experimental results show that the mechanical properties of the damper are stable and meet the expected design standards. The hysteresis loops approach a rectangular shape under steady-state harmonic motion, which means the tested damper has a strong energy dissipation capacity.

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粘性流体阻尼器动态性能试验研究

被动耗能系统已经发展了几十年，以提高结构的抗震性能。粘性流体阻尼器是一种液压装置，在冲程时耗散能量。它们将结构运动的动能转化为热能。粘性流体阻尼器是一种被动消能装置，用于提高结构的抗震性能。粘性阻尼器作为一种吸收地震能量的方法，为结构的屈服或破坏提供了另一种途径。由于几乎所有的地震能量都可以通过粘性阻尼器消散，因此结构可以在地震发生后不受破坏并立即投入使用。在本研究中，对粘性流体阻尼器的动态特性进行了全尺寸实验研究。试验结果表明，该阻尼器的力学性能稳定，达到了预期的设计标准。稳态简谐运动下，阻尼器的滞回线接近矩形，表明阻尼器具有较强的耗能能力。

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2021 4th International Symposium on Traffic Transportation and Civil Architecture (ISTTCA)

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