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On the numerical investigation of sound transmission through double-walled structures with membrane-type acoustic metamaterials
Publikationstyp
Journal Article
Publikationsdatum
2017-10-01
Sprache
English
Institut
TORE-URI
Enthalten in
Volume
142
Issue
4
Start Page
2400
End Page
2406
Citation
Journal of the Acoustical Society of America 4 (142): 2400-2406 (2017-10-01)
Publisher DOI
Scopus ID
Acoustic metamaterials appear to be of great help in the design of reliable and effective noise reduction measures in the low frequency range. The current contribution is concerned with the modeling of a low-frequency noise shield, based on a double wall arrangement, which includes membrane-type acoustic metamaterials (MAMs), considered as the most promising approach when it comes especially to the tonal noise at frequencies below 300 Hz. MAMs consist of small-sized membranes loaded with a mass. Due to their robustness and relatively simple production, MAMs have been proven to decrease the sound transmission in frequency ranges, for which poro-elastic materials have a rather negligible effect. A simulation model of a double wall panel, whose acoustic cavity is furnished with layers of metamaterials, has been developed and the sound transmission loss (STL) through the structure was calculated, using the finite element method. In order to validate the modelling approach, the STL estimation from the finite element analysis was compared to experimental measurements. The achieved results indicate a noise-decreasing possibility in tunable narrow bands as well as a broadband noise reduction for frequencies less than 300 Hz without significantly adding to the panel mass.