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A Review on Methods for Determining the Vibratory Damping Ratio
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作者 Nkibeu Jean Bertin Charly Julien Nyobe +1 位作者 Moussa Sali Madja Doumbaye Jerémie 《Open Journal of Civil Engineering》 2023年第2期199-209,共11页
This article aims to popularize the methods for determining the vibratory damping ratio, to explain the various mathematical and physical theorems related to the establishment of literal expressions. Vibration damping... This article aims to popularize the methods for determining the vibratory damping ratio, to explain the various mathematical and physical theorems related to the establishment of literal expressions. Vibration damping is an essential parameter to reduce the dynamic responses of structures. The study aimed at its determination is necessary and essential for the safeguard of buildings and human lives during the earthquake. Among the main methods studied in this article, the free vibration attenuation method seems to be easy to implement but requires a state-of-the-art device to capture the responses. In addition to this device, the other methods require other equipment for the vibration of the system and the transformation of the responses in the frequency domain. 展开更多
关键词 damping OSCILLATOR Attenuation of Free Vibrations Amplification at Resonance Resonance Peak Width Energy Dissipated by damping Stored Elastic Energy
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Theoretical and numerical investigations of wave resonance between two floating bodies in close proximity 被引量:6
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作者 谭雷 唐国强 +3 位作者 周忠兵 Liang Cheng Xiaobo Chen 吕林 《Journal of Hydrodynamics》 SCIE EI CSCD 2017年第5期805-816,共12页
A simple theoretical dynamic model with a linearized damping coefficient is proposed for the gap resonance problem, as often referred to as the piston mode wave motion in a narrow gap formed by floating bodies. The re... A simple theoretical dynamic model with a linearized damping coefficient is proposed for the gap resonance problem, as often referred to as the piston mode wave motion in a narrow gap formed by floating bodies. The relationship among the resonant response amplitude and frequency, the reflection and transmission coefficients, the gap width, and the damping coefficient is obtained. A quantitative link between the damping coefficient of the theoretical dynamic model(ε) and that devised for the modified potential flow model(μ_p) is established, namely, μ_p=3πεω_n/8 (where ω_n is the natural frequency). This link clarifies the physical meaning of the damping term introduced into the modified potential flow model. A new explicit approach to determine the damping coefficient for the modified potential model is proposed, without resorting to numerically tuning the damping coefficient by trial and error tests. The effects of the body breadth ratio on the characteristics of the gap resonance are numerically investigated by using both the modified potential flow model and the viscous RNG turbulent model. It is found that the body breadth ratio has a significant nonlinear influence on the resonant wave amplitude and the resonant frequency. With the modified potential flow model with the explicit damping coefficient, reasonable predictions are made in good agreement with the numerical solutions of the viscous fluid model. 展开更多
关键词 Water wave narrow gap fluid resonance energy dissipation artificial damping
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