Improvement of Sound Insulation Through Double-Panel Structure by Using Hybrid Local Resonator Array

IF 0.6 4区 物理与天体物理 Q4 ACOUSTICS Archives of Acoustics Pub Date : 2023-07-20 DOI:10.24425/aoa.2022.142907
RI Kyong-Su, Myong-jin Kim
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Abstract

In this paper, we present one approach to improve the soundproofing performance of the double-panel structure (DPS) in the entire audible frequencies, in which two kinds of local resonances, the breathing-type resonance and the Helmholtz resonance, are combined. The thin ring resonator row and slit-type resonator (Helmholtz resonator) row are inserted between two panels of DPS together. Overlapping of the band gaps due to the individual resonances gives a wide and high band gap of sound transmission in the low frequency range. At the same time, the Bragg-type band gap is created by the structural periodicity of the scatterers in the high audible frequency range. In addition, the number of scatterer rows and the filling factor are investigated with regard to the sound insulation of DPS with sonic crystals (SCs). Consequently, the hybrid SC has the potential of increasing the soundproofing performance of DPS in the audible frequency range above 1 kHz by about 15 dB on average compared to DPS filled only with glass wool between two panels, while decreasing the total thickness and mass compared to the counterparts with the other type of local resonant sonic crystal.
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利用混合局部谐振器阵列改善双面板结构的隔声性能
在本文中,我们提出了一种提高双层结构(DPS)在整个可听频率下的声学性能的方法,其中两种局部共振,呼吸型共振和亥姆霍兹共振相结合。薄环形谐振器行和狭缝型谐振器(亥姆霍兹谐振器)行一起插入DPS的两个面板之间。由于单独的谐振而引起的带隙的重叠在低频范围内给出了声音传输的宽且高的带隙。同时,布拉格型带隙是由高可听频率范围内散射体的结构周期性产生的。此外,还研究了具有声波晶体(SC)的DPS的隔声情况下散射体排数和填充因子。因此,与仅在两块面板之间填充玻璃棉的DPS相比,混合SC有可能在1kHz以上的可听频率范围内将DPS的隔音性能平均提高约15dB,同时与其他类型的局部共振声波晶体相比,降低总厚度和质量。
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来源期刊
Archives of Acoustics
Archives of Acoustics 物理-声学
CiteScore
1.80
自引率
11.10%
发文量
0
审稿时长
6-12 weeks
期刊介绍: Archives of Acoustics, the peer-reviewed quarterly journal publishes original research papers from all areas of acoustics like: acoustical measurements and instrumentation, acoustics of musics, acousto-optics, architectural, building and environmental acoustics, bioacoustics, electroacoustics, linear and nonlinear acoustics, noise and vibration, physical and chemical effects of sound, physiological acoustics, psychoacoustics, quantum acoustics, speech processing and communication systems, speech production and perception, transducers, ultrasonics, underwater acoustics.
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