Indian Journal of Fibre & Textile Research

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Cattail- Luffa Fibre Reinforced and Rice Stubble Ash Filled Composites for Acoustic Applications


Affiliations
1 Department of Textile Technology, Uttar Pradesh Textile Technology Institute, Kanpur 208 001, India

The possibility of using fibro-granular acoustic composites for the sound absorption of a wide range of frequencies through an experimental approach has been explored. The fibrous materials (cattail and luffa fibre) and granular materials (rice stubble ash) are used for the manufacturing of acoustic boards. The use of toxic binders, such as phenol-formaldehyde, polyester foams and polyurethane, has been eliminated in this modified method to manufacture acoustic panels through a sustainable development route. The extraordinary free space available in the network of luffa fibres has been utilized to hold the rice stubble ash particles binder and still left free space are used for effective sound absorption. The prepared samples are tested mainly for density, pore size and sound absorption coefficient. The findings show that the developed panels have a density of 80 kg/m3 and pore size of 110 μm, which are effective in absorbing both low and high-frequency sound waves within the acoustic frequency range 63 −6300 Hz. The sound absorption coefficient of these panels is found more than 0.8, which is comparable with commercially available acoustic boards. These eco-friendly acoustic panels, made of agricultural residues such as cattail fibre, luffa fibre and rice stubble waste, do not require significant capital to make a green utilization of waste materials for product development.

Keywords

Box and Behnken design, Cattail fibre, Fibre reinforced composite, Luffa fibre, Rice stubble ash, Sound absorption
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  • Cattail- Luffa Fibre Reinforced and Rice Stubble Ash Filled Composites for Acoustic Applications

Abstract Views: 36  | 

Authors

Kaushal Kishor
Department of Textile Technology, Uttar Pradesh Textile Technology Institute, Kanpur 208 001, India
Mukesh Kumar Singh
Department of Textile Technology, Uttar Pradesh Textile Technology Institute, Kanpur 208 001, India
Supriyo Chakraborty
Department of Textile Technology, Uttar Pradesh Textile Technology Institute, Kanpur 208 001, India

Abstract


The possibility of using fibro-granular acoustic composites for the sound absorption of a wide range of frequencies through an experimental approach has been explored. The fibrous materials (cattail and luffa fibre) and granular materials (rice stubble ash) are used for the manufacturing of acoustic boards. The use of toxic binders, such as phenol-formaldehyde, polyester foams and polyurethane, has been eliminated in this modified method to manufacture acoustic panels through a sustainable development route. The extraordinary free space available in the network of luffa fibres has been utilized to hold the rice stubble ash particles binder and still left free space are used for effective sound absorption. The prepared samples are tested mainly for density, pore size and sound absorption coefficient. The findings show that the developed panels have a density of 80 kg/m3 and pore size of 110 μm, which are effective in absorbing both low and high-frequency sound waves within the acoustic frequency range 63 −6300 Hz. The sound absorption coefficient of these panels is found more than 0.8, which is comparable with commercially available acoustic boards. These eco-friendly acoustic panels, made of agricultural residues such as cattail fibre, luffa fibre and rice stubble waste, do not require significant capital to make a green utilization of waste materials for product development.

Keywords


Box and Behnken design, Cattail fibre, Fibre reinforced composite, Luffa fibre, Rice stubble ash, Sound absorption