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contributor authorIkeda, Takashi
contributor authorHarata, Yuji
date accessioned2017-11-25T07:20:12Z
date available2017-11-25T07:20:12Z
date copyright2017/30/5
date issued2017
identifier issn1048-9002
identifier othervib_139_04_041009.pdf
identifier urihttp://138.201.223.254:8080/yetl1/handle/yetl/4236267
description abstractPassive control of vibrations in an elastic structure subjected to horizontal, harmonic excitation by utilizing a nearly square liquid tank is investigated. When the natural frequency ratio 1:1:1 is satisfied among the natural frequencies of the structure and the two predominant sloshing modes (1,0) and (0,1), the performance of a nearly square tank as a tuned liquid damper (TLD) is expected to be superior to rectangular TLDs due to internal resonance. In the theoretical analysis, Galerkin's method is used to determine the modal equations of motion for liquid sloshing considering the nonlinearity of sloshing. Then, van der Pol's method is used to obtain the expressions for the frequency response curves for the structure and sloshing modes. Frequency response curves and bifurcation set diagrams are shown to investigate the influences of the aspect ratio of the tank cross section and the tank installation angle on the system response. From the theoretical results, the optimal values of the system parameters can be determined in order to achieve maximum efficiency of vibration suppression for the structure. Hopf bifurcations occur and amplitude modulated motions (AMMs) may appear depending on the values of the system parameters. Experiments were also conducted, and the theoretical results agreed well with the experimental data.
publisherThe American Society of Mechanical Engineers (ASME)
titleVibration Control of Horizontally Excited Structures Utilizing Internal Resonance of Liquid Sloshing in Nearly Square Tanks
typeJournal Paper
journal volume139
journal issue4
journal titleJournal of Vibration and Acoustics
identifier doi10.1115/1.4036211
journal fristpage41009
journal lastpage041009-13
treeJournal of Vibration and Acoustics:;2017:;volume( 139 ):;issue: 004
contenttypeFulltext


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