The low-frequency (20–250 Hz) airborne sound transmission of single
partitions is investigated. Three theoretical models are used for
the prediction: an infinite plate model, a baffled plate model and
a room-plate-room model. The calculation models are verified by detailed
comparisons with experimental results obtained in the laboratory.
A parametric study is carried out to examine the influence of the
dimensions of the room and the partition. The results demonstrate
the strong modal behaviour of the lowfrequency sound transmission.
As a result, the low-frequency sound insulation depends not only
on the properties of the test wall but also on the geometry and the
dimensions of the room-wall-room system. In general, the large variation
of the low-frequency insulation compromises the accuracy of prediction
of the sound insulation in situ.
%0 Journal Article
%1 Osipov1997
%A Osipov, A.
%A Mees, P.
%A Vermeir, G.
%D 1997
%J Applied Acoustics
%K Low buildings frequencies; insulation; sound
%P 273-288
%T Low-Frequency Airborne Sound Transmission through Single Partitions
in Buildings
%V 52
%X The low-frequency (20–250 Hz) airborne sound transmission of single
partitions is investigated. Three theoretical models are used for
the prediction: an infinite plate model, a baffled plate model and
a room-plate-room model. The calculation models are verified by detailed
comparisons with experimental results obtained in the laboratory.
A parametric study is carried out to examine the influence of the
dimensions of the room and the partition. The results demonstrate
the strong modal behaviour of the lowfrequency sound transmission.
As a result, the low-frequency sound insulation depends not only
on the properties of the test wall but also on the geometry and the
dimensions of the room-wall-room system. In general, the large variation
of the low-frequency insulation compromises the accuracy of prediction
of the sound insulation in situ.
@article{Osipov1997,
abstract = {The low-frequency (20–250 Hz) airborne sound transmission of single
partitions is investigated. Three theoretical models are used for
the prediction: an infinite plate model, a baffled plate model and
a room-plate-room model. The calculation models are verified by detailed
comparisons with experimental results obtained in the laboratory.
A parametric study is carried out to examine the influence of the
dimensions of the room and the partition. The results demonstrate
the strong modal behaviour of the lowfrequency sound transmission.
As a result, the low-frequency sound insulation depends not only
on the properties of the test wall but also on the geometry and the
dimensions of the room-wall-room system. In general, the large variation
of the low-frequency insulation compromises the accuracy of prediction
of the sound insulation in situ.},
added-at = {2012-01-27T14:10:42.000+0100},
author = {Osipov, A. and Mees, P. and Vermeir, G.},
biburl = {https://www.bibsonomy.org/bibtex/2d69a2c347d27961bbef79b5bc6f9ecd9/muhe},
interhash = {452b016ec4884b81487f256ab4c5c527},
intrahash = {d69a2c347d27961bbef79b5bc6f9ecd9},
journal = {Applied Acoustics},
keywords = {Low buildings frequencies; insulation; sound},
owner = {Mu},
pages = {273-288},
timestamp = {2012-01-27T14:11:04.000+0100},
title = {Low-Frequency Airborne Sound Transmission through Single Partitions
in Buildings},
volume = 52,
year = 1997
}