Low frequency airborne sound transmission
Low frequency airborne sound transmission
This study focuses on the improvement in the understanding of airborne noise transmission phenomenon in buildings, at low frequencies, under conditions of different architectural configurations. The effects of low-frequency noise have been of a particular concern because many kinds of structures have been inefficient in attenuating low-frequency noise, compared to other frequency components. Likewise the Sound Reduction Index is normally measured under diffuse field conditions and these calculations show that, at low frequencies, this is not the case. An acoustic structural coupled room-plate-room model, which allows variations in room size and shape, and partition properties to be considered, has been formulated and solved. Results of a parametric study show the effect of several configurations for a flexible partition (different geometric size and position in the common wall) and connected rooms (size and absorbing walls) on the Sound Reduction Index by averaging over 1/3 octave bands. Finally, a general discussion, based on the findings of the results obtained, is presented.
1111-1114
Nederlands Akoestisch Genootschap
Magalhaes, M.D.C.
18978e6b-2902-404e-bb81-a13b2dd1f586
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
August 2001
Magalhaes, M.D.C.
18978e6b-2902-404e-bb81-a13b2dd1f586
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Magalhaes, M.D.C. and Ferguson, N.S.
(2001)
Low frequency airborne sound transmission.
Boone, R.
(ed.)
In Proceedings of the 2001 International Congress and Exhibition on Noise Control Engineering.
Nederlands Akoestisch Genootschap.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
This study focuses on the improvement in the understanding of airborne noise transmission phenomenon in buildings, at low frequencies, under conditions of different architectural configurations. The effects of low-frequency noise have been of a particular concern because many kinds of structures have been inefficient in attenuating low-frequency noise, compared to other frequency components. Likewise the Sound Reduction Index is normally measured under diffuse field conditions and these calculations show that, at low frequencies, this is not the case. An acoustic structural coupled room-plate-room model, which allows variations in room size and shape, and partition properties to be considered, has been formulated and solved. Results of a parametric study show the effect of several configurations for a flexible partition (different geometric size and position in the common wall) and connected rooms (size and absorbing walls) on the Sound Reduction Index by averaging over 1/3 octave bands. Finally, a general discussion, based on the findings of the results obtained, is presented.
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More information
Published date: August 2001
Venue - Dates:
International Congress and Exhibition on Noise Control Engineering, The Hague, Netherlands, 2001-08-27 - 2001-08-30
Identifiers
Local EPrints ID: 57879
URI: http://eprints.soton.ac.uk/id/eprint/57879
PURE UUID: b942d309-ce13-48f5-b5da-c1702ac9d382
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Date deposited: 13 Aug 2008
Last modified: 08 Mar 2024 02:32
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Contributors
Author:
M.D.C. Magalhaes
Editor:
R. Boone
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