Xiong Yan scite author profile

In this paper, a promising acoustic structure for noise reduction was prepared, in which microperforated nanofibrous resonant membrane together with nonwovens were used. The role of microperforated nanofibrous film, the effect of perforation parameters, cavity and the assembly sequence of the composite fibrous structure on sound absorption performance has been studied. This structure effectively combined the porous sound absorbing, micro-perforated absorbing and membrane resonance mechanisms, which can improve the sound absorbing performance without weight and thickness penalty offering a competitive advantage in noise reduction. In addition, the composite materials exhibited favorable performance in a wide-frequency regime under the condition of appropriate assembly sequence and perforation parameters.

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A low-cost and environmental-friendly microperforated structure based on jute fiber and polypropylene for sound absorption

Shen

Shao²,

Li³

et al. 2022

J Polym Res

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Sound absorption properties of nanofiber membrane-based multi-layer composites

Shao

Yan

2022

Applied Acoustics

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Investigation on Low-Frequency Sound Absorption Properties of PVB Micro-/Nanofiber Membranes

2023

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Xiong Yan

Sound absorption performance and mechanism of flexible PVA microperforated membrane

Design of microperforated nanofibrous membrane coated nonwoven structure for acoustic applications

A low-cost and environmental-friendly microperforated structure based on jute fiber and polypropylene for sound absorption

Sound absorption properties of nanofiber membrane-based multi-layer composites

Investigation on Low-Frequency Sound Absorption Properties of PVB Micro-/Nanofiber Membranes

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