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Study on Acoustic Properties of Helmholtz-Type Honeycomb Sandwich Acoustic Metamaterials

Xiao-Ling Gai, Xianhui Li, Xi-Wen Guan, Tuo Xing, Zenong Cai, Wencheng Hu

2025Materials8 citationsDOIOpen Access PDF

Abstract

In order to improve the acoustic performance of honeycomb sandwich structures, a Helmholtz-type honeycomb sandwich acoustic metamaterial (HHSAM) was proposed. The theoretical and finite element models were established by calculating the acoustic impedance of multiple parallel Helmholtz resonators (HR). By comparing the sound absorption of the single and multiple HR, it was found that the simulation results were basically consistent with the theoretical calculations. The sound absorption and insulation performance of the honeycomb panels, the honeycomb perforated panels, and the HHSAM structure were compared through impedance tube experiments. The results showed that, over a wide frequency range, the acoustic performance of the HHSAM structure was superior to that of the other two structures. Under scattered sound field conditions, the reverberation room results showed that the sound absorption of the HHSAM structure was better than that of the honeycomb panel in the frequency range of 100-5000 Hz. The noise reduction coefficient (NRC) of the honeycomb panel was 0.1, indicating almost no sound absorption effect in engineering. The NRC of the HHSAM structure could reach 0.35. In terms of sound insulation, the HHSAM structure was more prominent in the 400-4000 Hz range than the honeycomb panel. In the frequency range of 500-1600 Hz, the transmission loss of the HHSAM was 5 dB higher than that of the honeycomb panel.

Topics & Concepts

HoneycombAcousticsMaterials scienceSoundproofingHoneycomb structureHelmholtz free energyAcoustic impedanceNoise reduction coefficientSandwich panelHelmholtz resonatorReverberation roomSound transmission classAbsorption (acoustics)Electrical impedanceResonatorComposite materialPhysicsPorosityUltrasonic sensorEngineeringElectrical engineeringOptoelectronicsQuantum mechanicsAcoustic Wave Phenomena ResearchCellular and Composite StructuresNoise Effects and Management
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