Handbook for Sound Engineers

(Wang) #1
Acoustical Treatment for Indoor Areas 107

5.2.2.3 Acoustical Tiles

Acoustical tiles have the highest density of the porous
absorbers. They are widely used for suspended (lay-in)
ceiling treatments. Years ago, it was common to see
30 cm × 30 cm (12 in × 12 in) tile mounted directly to a
hard plaster (Type A mounting). This is not a very effi-
cient way to use this type of absorber and is no longer
popular.
The standard sizes for acoustical tiles are 61 cm
square (24 in × 24 in) or 61 cm × 122 cm (24 in × 48 in)
and the Sabine absorption coefficients are usually given
for Type E400 mounting, which mimics a lay-in ceiling
with a 400 mm (16 in) air space. Fig. 5-16 shows the
average absorption coefficients of a sampling of 39
different acoustical tiles. The vertical lines at each
frequency point indicate the spread of the coefficients
for each frequency. It is interesting to note the wide vari-
ance possible with different types of tiles.

5.2.2.4 Spray and Trowel Applied Treatments

Some acoustical treatments can be applied by spray
and/or trowel. Many are applied, finished, and detailed
much like standard plaster—and are even paintable.
Special bonding chemicals and processes give these
types of materials their absorptive qualities. Some have a
gypsum base, which can provide a look similar to normal
plaster or gypsum wallboard walls. Acoustical plasters
tend to provide high frequency absorption, with poor low
frequency performance, especially when applied thinly
(<2.5 cm thickness). Acoustical plasters can be an

economical option when considering spaces that require
large areas of absorption—e.g., a gymnasium ceiling.
Some spray applied treatments can provide fireproofing,
as well as thermal insulation. They are also popular in
historical preservation applications, where the aesthetic
appearance of a surface cannot be altered, but the acous-
tics must be improved to provide better communications
in the space.

5.2.2.5 Carpet and Draperies

Carpet is a visual and comfort asset, and it is a porous
absorber of sound, although principally at upper audio
frequencies. Carpet is what the electrical engineer might
call a low-pass filter. Because it is a high-frequency
absorber, carpet should be used cautiously as a room
treatment. Carpet can make a well-balanced room bass
heavy because of its excessive high frequency absorp-
tion. The various types of carpet have different sound
absorption characteristics. In general, sound absorption
increases with pile weight and height; cut pile has greater
absorption than loop pile. Pad material has a significant
effect on the absorption of a carpet. Generally, the
heavier the carpet pad, the more absorption. Imperme-
able backing should be used with care as it dramatically
reduces the effect of the carpet pad and thereby reduces
absorption. Due to the limited thickness of carpet, even
the deepest possible pile (with the thickest possible pad)
will not absorb much low-frequency sound. Fig. 5-17
shows the absorption coefficient for a typical
medium-pile carpet, with and without a carpet pad.^21

Figure 5-16. The average Sabine absorption coefficients
(DSAB) of 39 acoustical ceiling tiles of varying thickness,
Type E400 mounting.


125 250 500 1k 2k 4k NRC

1.40

1.20

1.00

0.80

0.60

0.40

0.20

0.00

Octave band center frequency—Hz

ASAB

Figure 5-17. The absorption of loop pile tufted carpet
(0.7 kg/m^2 ) with and without carpet pad (1.4 kg/m^2 ), Type
A mounting.^21

Carpet without pad
Carpet with pad

125 250 500 1k 2k 4k

1.40

1.20

1.00

0.80

0.60

0.40

0.20

0.00
Octave band center frequency—Hz

ASAB
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