The potential of napier grass leaf fibres as an acoustic absorber

Acoustic absorbers are introduced to treat poor acoustic enviroment in rooms. However, many available acoustic absorbers in the market are composed of hazardous materials. Therefore, there are demands for the use of sustainable materials in the production of acoustic absorbers. This research investi...

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Main Authors: Haron, Zaiton, Yahya, Khairulzan, Mohd. Fasli, Nurathirah, Darus, Nadirah, Galib, Suhaida, Halim, Herni, Tuan Mat, Tuan Nor Farazila
Format: Article
Language:English
Published: Dorma Journals 2020
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Online Access:http://eprints.utm.my/id/eprint/90445/1/ZaitonHaron2020_ThePotentialofNapierGrassLeafFibres.pdf
http://eprints.utm.my/id/eprint/90445/
http://jett.dormaj.com/Volume8_Issue2.html
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Institution: Universiti Teknologi Malaysia
Language: English
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spelling my.utm.904452021-04-30T14:41:42Z http://eprints.utm.my/id/eprint/90445/ The potential of napier grass leaf fibres as an acoustic absorber Haron, Zaiton Yahya, Khairulzan Mohd. Fasli, Nurathirah Darus, Nadirah Galib, Suhaida Halim, Herni Tuan Mat, Tuan Nor Farazila TA Engineering (General). Civil engineering (General) Acoustic absorbers are introduced to treat poor acoustic enviroment in rooms. However, many available acoustic absorbers in the market are composed of hazardous materials. Therefore, there are demands for the use of sustainable materials in the production of acoustic absorbers. This research investigated the sound absorption potential of grass leaf fibres, i.e. Napier grass, as material for acoustic absorbers. Various bound Napier grass fibre samples, with and without binder under normal press with different thickness, were prepared and tested by using an impedance tube test for sound absorption coefficient (SAC) determination. Samples with binder under hot press with thickness of 10mm were also prepared. The results revealed that 5mm and 20mm fibres, respectively, when bonded with urea formaldhyde (UF) under normal press and with thickness of 30mm, produced a relatively high SAC for frequencies at 500 Hz, 1000 Hz and 2500 Hz, and thus resulted in a high average NRC value of 0.59. This exceeded the value for synthetic fibre-glass and was similar to rockwool. Moreover, the sound absorption performance of 20 mm fibre size hot pressed samples were better than hot pressed 5mm fibre size at 500 Hz frequency until 1000 Hz, as well as the bulk and fibre bonded with UF samples for all frequencies. This study concluded that non-toxic Napier grass fibres can be used in the production of sustainable acoustic absorbers. Dorma Journals 2020 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/90445/1/ZaitonHaron2020_ThePotentialofNapierGrassLeafFibres.pdf Haron, Zaiton and Yahya, Khairulzan and Mohd. Fasli, Nurathirah and Darus, Nadirah and Galib, Suhaida and Halim, Herni and Tuan Mat, Tuan Nor Farazila (2020) The potential of napier grass leaf fibres as an acoustic absorber. Journal of Environmental Treatment Techniques, 8 (2). pp. 797-803. ISSN 2309-1185 http://jett.dormaj.com/Volume8_Issue2.html
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic TA Engineering (General). Civil engineering (General)
spellingShingle TA Engineering (General). Civil engineering (General)
Haron, Zaiton
Yahya, Khairulzan
Mohd. Fasli, Nurathirah
Darus, Nadirah
Galib, Suhaida
Halim, Herni
Tuan Mat, Tuan Nor Farazila
The potential of napier grass leaf fibres as an acoustic absorber
description Acoustic absorbers are introduced to treat poor acoustic enviroment in rooms. However, many available acoustic absorbers in the market are composed of hazardous materials. Therefore, there are demands for the use of sustainable materials in the production of acoustic absorbers. This research investigated the sound absorption potential of grass leaf fibres, i.e. Napier grass, as material for acoustic absorbers. Various bound Napier grass fibre samples, with and without binder under normal press with different thickness, were prepared and tested by using an impedance tube test for sound absorption coefficient (SAC) determination. Samples with binder under hot press with thickness of 10mm were also prepared. The results revealed that 5mm and 20mm fibres, respectively, when bonded with urea formaldhyde (UF) under normal press and with thickness of 30mm, produced a relatively high SAC for frequencies at 500 Hz, 1000 Hz and 2500 Hz, and thus resulted in a high average NRC value of 0.59. This exceeded the value for synthetic fibre-glass and was similar to rockwool. Moreover, the sound absorption performance of 20 mm fibre size hot pressed samples were better than hot pressed 5mm fibre size at 500 Hz frequency until 1000 Hz, as well as the bulk and fibre bonded with UF samples for all frequencies. This study concluded that non-toxic Napier grass fibres can be used in the production of sustainable acoustic absorbers.
format Article
author Haron, Zaiton
Yahya, Khairulzan
Mohd. Fasli, Nurathirah
Darus, Nadirah
Galib, Suhaida
Halim, Herni
Tuan Mat, Tuan Nor Farazila
author_facet Haron, Zaiton
Yahya, Khairulzan
Mohd. Fasli, Nurathirah
Darus, Nadirah
Galib, Suhaida
Halim, Herni
Tuan Mat, Tuan Nor Farazila
author_sort Haron, Zaiton
title The potential of napier grass leaf fibres as an acoustic absorber
title_short The potential of napier grass leaf fibres as an acoustic absorber
title_full The potential of napier grass leaf fibres as an acoustic absorber
title_fullStr The potential of napier grass leaf fibres as an acoustic absorber
title_full_unstemmed The potential of napier grass leaf fibres as an acoustic absorber
title_sort potential of napier grass leaf fibres as an acoustic absorber
publisher Dorma Journals
publishDate 2020
url http://eprints.utm.my/id/eprint/90445/1/ZaitonHaron2020_ThePotentialofNapierGrassLeafFibres.pdf
http://eprints.utm.my/id/eprint/90445/
http://jett.dormaj.com/Volume8_Issue2.html
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