DEVELOPMENT OF FABRIC-BASED MICRO PERFORATED PANEL ABSORBER

DEVELOPMENT OF FABRIC-BASED MICRO PERFORATED PANEL ABSORBER

The most typical sound absorbers are made of porous material. Although porous material provides decent sound absorption, their fibers can be harmful on health and environment. Thus, micro-perforated panels are considered to be an alternative option to deal with the health and environment issues. How...

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Main Author: NOVEMBRIANTY HERMANTO (NIM : 13313041) ; GRADI DESENDRA , MELISSA
Format: Final Project
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/28857
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:28857
spelling id-itb.:288572018-01-17T13:29:14ZDEVELOPMENT OF FABRIC-BASED MICRO PERFORATED PANEL ABSORBER NOVEMBRIANTY HERMANTO (NIM : 13313041) ; GRADI DESENDRA , MELISSA Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/28857 The most typical sound absorbers are made of porous material. Although porous material provides decent sound absorption, their fibers can be harmful on health and environment. Thus, micro-perforated panels are considered to be an alternative option to deal with the health and environment issues. However, manufacturing minute holes of the micro perforated panel in Indonesia is not found easily. The use of microstructure of existing materials that is availabe on the market can be alternative to fabricate MPP. <br /> <br /> <br /> A woven fabric is known having microstructure inherently so that will be investigated its potential as MPP material. In this final project, two kinds of woven fabric namely Alabama and Lisburn are employed. For modelling and simulation purposes, the geometrical properties of the woven fabrics are required. Those properties were obtained through measurements using Scanning Electron Microscope (SEM) and subsequenlty used to calculate absorption coefficient of the MPP system consisting of the fabric backing by air cavity by using the Dah-You Maa formula. The results obtained were then validated by measurement results where impedance tube was used to get the absorption coefficients of each fabric. <br /> <br /> <br /> The results show that both of the woven fabric are potential to be used as sound absorbers. For the model itself, the formula proposed by Maa can not be used for all kind of woven fabric especially for fabric that has some fiber in between the pores like Alabama. For this, the resistive screen model derived from JCA (Johnson-Champoux-Allard) model are used. On the other hand, for the case of Lisburn, Maa model is still find to use. It is also foun that the combination of two fabrics to form multilayer system can improve the absorption coefficient, especially in increasing the absorption bandwidth. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
description The most typical sound absorbers are made of porous material. Although porous material provides decent sound absorption, their fibers can be harmful on health and environment. Thus, micro-perforated panels are considered to be an alternative option to deal with the health and environment issues. However, manufacturing minute holes of the micro perforated panel in Indonesia is not found easily. The use of microstructure of existing materials that is availabe on the market can be alternative to fabricate MPP. <br /> <br /> <br /> A woven fabric is known having microstructure inherently so that will be investigated its potential as MPP material. In this final project, two kinds of woven fabric namely Alabama and Lisburn are employed. For modelling and simulation purposes, the geometrical properties of the woven fabrics are required. Those properties were obtained through measurements using Scanning Electron Microscope (SEM) and subsequenlty used to calculate absorption coefficient of the MPP system consisting of the fabric backing by air cavity by using the Dah-You Maa formula. The results obtained were then validated by measurement results where impedance tube was used to get the absorption coefficients of each fabric. <br /> <br /> <br /> The results show that both of the woven fabric are potential to be used as sound absorbers. For the model itself, the formula proposed by Maa can not be used for all kind of woven fabric especially for fabric that has some fiber in between the pores like Alabama. For this, the resistive screen model derived from JCA (Johnson-Champoux-Allard) model are used. On the other hand, for the case of Lisburn, Maa model is still find to use. It is also foun that the combination of two fabrics to form multilayer system can improve the absorption coefficient, especially in increasing the absorption bandwidth.
format Final Project
author NOVEMBRIANTY HERMANTO (NIM : 13313041) ; GRADI DESENDRA , MELISSA
spellingShingle NOVEMBRIANTY HERMANTO (NIM : 13313041) ; GRADI DESENDRA , MELISSA
DEVELOPMENT OF FABRIC-BASED MICRO PERFORATED PANEL ABSORBER
author_facet NOVEMBRIANTY HERMANTO (NIM : 13313041) ; GRADI DESENDRA , MELISSA
author_sort NOVEMBRIANTY HERMANTO (NIM : 13313041) ; GRADI DESENDRA , MELISSA
title DEVELOPMENT OF FABRIC-BASED MICRO PERFORATED PANEL ABSORBER
title_short DEVELOPMENT OF FABRIC-BASED MICRO PERFORATED PANEL ABSORBER
title_full DEVELOPMENT OF FABRIC-BASED MICRO PERFORATED PANEL ABSORBER
title_fullStr DEVELOPMENT OF FABRIC-BASED MICRO PERFORATED PANEL ABSORBER
title_full_unstemmed DEVELOPMENT OF FABRIC-BASED MICRO PERFORATED PANEL ABSORBER
title_sort development of fabric-based micro perforated panel absorber
url https://digilib.itb.ac.id/gdl/view/28857
_version_ 1821995197148430336

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