Vibration Localization in a Fluid-Loaded Rectangular Plate with Rib Irregularity

Hao Hao Hu; De Jiang Shang

doi:10.4028/www.scientific.net/AMM.226-228.191

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Investigating Nonlinear Vibration of a Fully Clamped Nanobeam in Presence of the van der Waals Attraction
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Study on Impact of Vibration Direction on Linear Vibration Screening Effect
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Vibration Localization in a Fluid-Loaded Rectangular Plate with Rib Irregularity
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Analysis and Experiment of an Air Vibration Isolation System with Auxiliary Chambers
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The Design and Dynamic Analysis of High Frequency Ultrasonic Transducer for Wire Bonding Application
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Application of Balanced Multi-Wavelet in the Fault Diagnosis of Rolling Bearing
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 226-228Vibration Localization in a Fluid-Loaded...

Vibration Localization in a Fluid-Loaded Rectangular Plate with Rib Irregularity

Abstract:

This paper studies the vibration localization of fluid-loaded irregularly ribbed plate analytically. The modal expansion method was adopted to solve the multi-coupled system, the ribs were considered as Timoshenko beams attached to the plate. The localization mechanism was investigated by comparing different coupling effect at the plate-beam interface, it was found the ribs space irregularity only localize the modes associated with the shear force coupling. Both the light and heavy fluid loading pressure were concerned by Rayleigh integral , the study showed that obvious vibration localization phenomenon can be achieved by the ribs space irregularity, and the localization effect was weakened by the long range interaction through the heavy fluid, although the response amplitude of the modes decreased obviously. The investigation may be quite significant for vibration confinement and noise control in engineering.