2021
DOI: 10.1039/d1ra06493b
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Progress of low-frequency sound absorption research utilizing intelligent materials and acoustic metamaterials

Abstract: In this review, the latest progress of intelligent materials incorporated with acoustic metamaterials is summarized to provide an impetus for this highly interdisciplinary advancement towards low-frequency sound absorption.

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Cited by 27 publications
(10 citation statements)
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References 129 publications
(176 reference statements)
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“…Traditional porous materials, as previously indicated, have low densities, decent sound absorption capabilities, and excellent high frequency absorption capabilities; nevertheless, their middle and low frequency range sound absorption capabilities are weak [110,111]. Acoustic metamaterials can adjust the sound transmission through their own special structure, and they have good sound absorption or sound insulation performance in the low and medium frequency range, on the contrary, the sound absorption performance in the high frequency range is very poor [16,112]. Therefore, the composite structure made of porous materials and acoustic metamaterials is an efficient way to achieve broadband sound absorption and sound insulation in the practical application of noise reduction in order to extend the frequency range of noise reduction [113][114][115][116].…”
Section: Composite Structure Of Porous Materials and Acoustic Metamat...mentioning
confidence: 94%
“…Traditional porous materials, as previously indicated, have low densities, decent sound absorption capabilities, and excellent high frequency absorption capabilities; nevertheless, their middle and low frequency range sound absorption capabilities are weak [110,111]. Acoustic metamaterials can adjust the sound transmission through their own special structure, and they have good sound absorption or sound insulation performance in the low and medium frequency range, on the contrary, the sound absorption performance in the high frequency range is very poor [16,112]. Therefore, the composite structure made of porous materials and acoustic metamaterials is an efficient way to achieve broadband sound absorption and sound insulation in the practical application of noise reduction in order to extend the frequency range of noise reduction [113][114][115][116].…”
Section: Composite Structure Of Porous Materials and Acoustic Metamat...mentioning
confidence: 94%
“…For example, membrane absorbers [8][9][10] have been installed within a studio. [8,9,11] In comparison, metasurface absorbers with co-planar spiral tubes were demonstrated in laboratory, [12][13][14][15][16] but are still costly for installing over a larger area. The bandwidth of these ultra-low frequency absorbers is narrow and risks becoming ineffective when the noise spectrum drifts from the target.…”
Section: Introductionmentioning
confidence: 99%
“…[ 1 ] Taking sound absorption as an example, if porous sound absorption materials are used, the thickness is often required to exceed 1/4‐wavelength of the lowest working frequency for achieving effective absorption, that is, a very thick absorption structure is required to realize low‐frequency broadband sound absorption. [ 2 ] However, large surface density and thickness are unacceptable for aircraft, high‐speed train, ships, automobiles and other equipment that have severe restrictions on lightweight and size space. Therefore, the contradiction between low‐frequency noise attenuation and equipment compactness as well as lightweight is a key technical problem in the development of various high‐end equipment.…”
Section: Introductionmentioning
confidence: 99%