Surface Coating of Needle-Punched Nonwovens with Meltblown Nonwovens to Improve Acoustic Properties

Unlike the term sound insulation, which means reducing the penetration of noise into other areas, sound absorption means reducing the reflection and energy of the sound on the surface. It has become a highly noticed issue in recent years because the noise in our daily life is increasing day by day, and it causes some health and comfort disorders. In many areas, textiles have been used for acoustics control and noise absorption purposes. The purpose of this work is to determine the most effective media for sound absorption performance and its relation to thermal conductivity from needle-punched nonwoven, meltblown nonwoven and hybrid forms in different arrangements of these fabrics. To provide comparable samples, both needle-punched nonwoven and meltblown nonwoven samples were produced from 100% Polypropylene fibres. According to sound absorption tests, the hybrid-structured sample having a composition similar to the needle-punched nonwoven sample placed at the bottom of our study, while the meltblown nonwoven sample placed as a face layer outperformed the rest of the samples in terms of sound absorption and thermal conductivity. 'Meltblown only' samples had remarkably higher sound absorption efficiency than most of the samples, while the 'needle-punched nonwoven only' sample had the lowest sound absorption efficiency in all frequencies.

Automated summary

Sound absorption refers to reducing the reflection and energy of the sound on the surface, unlike sound insulation. Textiles have been used in acoustics control and noise absorption. This study aims to determine the most effective medium and its relationship with thermal conductivity for sound absorption.