Investigation of a Compound Perforated Panel Absorber With Backing Cavities Partially Filled With Polymer Materials
作者: C. Q. Wang , Y. S. Choy
DOI: 10.1115/1.4029771
关键词: Absorption (acoustics) 、 Materials science 、 Resonance 、 Polymer 、 Composite material
摘要: The paper concerns the sound absorption performance of a compound absorber which consists of a parallel arrangement of multiple perforated panel absorbers of different backing cavity depths partially filled with poroelastic polymer materials. Three polymer materials are considered: expandable polystyrene (EPS) foam, polymethacrylimide (PMI) foam, and polyester fiber. The normal incidence sound absorption coefficients of the compound panel absorber are tested experimentally. Results show that the former two foams can achieve similar absorption performance to the rigid cavity configuration, while the resonances shift to lower frequencies due to the changes of effective cavity depths. It is also found that the additional attenuation by polymer foams may improve sound absorption, but the effect is marginal. For polyester fiber, results show that it performs more like a single perforated panel absorber. Finite element simulation of the compound panel absorber is also discussed, and good agreement is observed between simulated and experimental results.
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Jiancheng Tao, Ruixiang Jing, Xiaojun Qiu, Sound absorption of a finite micro-perforated panel backed by a shunted loudspeaker. Journal of the Acoustical Society of America. ,vol. 135, pp. 231- 238 ,(2014) , 10.1121/1.4836215
S. Allam, M. Åbom, A New Type of Muffler Based on Microperforated Tubes Journal of Vibration and Acoustics. ,vol. 133, pp. 031005- ,(2011) , 10.1115/1.4002956
Benoit Nennig, Emmanuel Perrey-Debain, Mabrouk Ben Tahar, A mode matching method for modeling dissipative silencers lined with poroelastic materials and containing mean flow. Journal of the Acoustical Society of America. ,vol. 128, pp. 3308- 3320 ,(2010) , 10.1121/1.3506346
Jian Kang, MW Brocklesby, None, Feasibility of applying micro-perforated absorbers in acoustic window systems Applied Acoustics. ,vol. 66, pp. 669- 689 ,(2005) , 10.1016/J.APACOUST.2004.06.011
Kimihiro Sakagami, Yoshiki Nagayama, Masayuki Morimoto, Motoki Yairi, Pilot study on wideband sound absorber obtained by combination of two different microperforated panel (MPP) absorbers Acoustical Science and Technology. ,vol. 30, pp. 154- 156 ,(2009) , 10.1250/AST.30.154
J.‐F. Allard, Gilles Daigle, Propagation of Sound in Porous Media : Modelling Sound Absorbing Materials ,(2009)
Hideo Utsuno, Toshimitsu Tanaka, Takeshi Fujikawa, Andrew F. Seybert, Transfer function method for measuring characteristic impedance and propagation constant of porous material The Journal of the Acoustical Society of America. ,vol. 85, pp. S77- S78 ,(1989) , 10.1121/1.2027144
Soon-Hong Park, Acoustic properties of micro-perforated panel absorbers backed by Helmholtz resonators for the improvement of low-frequency sound absorption Journal of Sound and Vibration. ,vol. 332, pp. 4895- 4911 ,(2013) , 10.1016/J.JSV.2013.04.029
D.A. Bies, C.H. Hansen, Flow resistance information for acoustical design Applied Acoustics. ,vol. 13, pp. 357- 391 ,(1980) , 10.1016/0003-682X(80)90002-X
Chunqi Wang, Lixi Huang, On the acoustic properties of parallel arrangement of multiple micro-perforated panel absorbers with different cavity depths Journal of the Acoustical Society of America. ,vol. 130, pp. 208- 218 ,(2011) , 10.1121/1.3596459