Relationship between Helmholtz-resonance absorption and panel-type absorption in finite flexible microperforated-panel absorbers |
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Authors: | Masahiro Toyoda Rui Lin Mu |
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Institution: | a Kyoto University Pioneering Research Unit, B104, Kyoto University Katsura, Nishikyo-ku, Kyoto 615-8530, Japan b Department of Urban and Environmental Engineering, Graduate School of Engineering, Kyoto University, C1-4-392, Kyoto University Katsura, Nishikyo-ku, Kyoto 615-8540, Japan |
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Abstract: | Microperforated panels (MPPs) can provide wide-band absorption without fibrous and porous materials and are recognized as next-generation absorption materials. Although the fundamental absorbing mechanism of an MPP absorber is Helmholtz-resonance absorption, sound-induced vibration of an MPP itself can affects the absorption characteristics. There have been some studies considering the effects of the sound-induced vibration and there even is a proposal to widen the absorption bandwidth by positively utilizing the vibration of an MPP itself. On the other hand, in a previous study, the relationship between MPP absorbers and panel-type absorbers was investigated with infinite theory. However, the relationship between Helmholtz-resonance absorption and panel-type absorption in finite flexible MPP absorbers has not been clarified. Herein, from the viewpoint of an absorption-characteristics transition with the perforation ratio, the relationship between Helmholtz-resonance absorption and panel-type absorption including the effects of eigen-mode vibrations of the panel is theoretically and experimentally investigated. The analytical model considers a finite flexible MPP supported in a circular duct, and the predicted data for the absorption coefficient under normal incidence is validated by an experiment using an acoustic tube. From this investigation, it is found that panel-type absorption due to eigen-mode vibrations of the panel occurs independently from Helmholtz-resonance absorption, while panel-type absorption due to a mass-spring resonance of a panel and a back cavity has a trade-off relationship with Helmholtz-resonance absorption with respect to the perforation ratio. |
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Keywords: | Microperforated-panel absorber Helmholtz-resonance absorption Panel-type absorption Eigen-mode vibration Mass-spring resonance |
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