鈥淏EING punched in the back of the neck with a blunt instrument.鈥 That鈥檚 how
William Morton, a retired flautist with the Royal Opera House orchestra in
London, describes the blast of sound that assaults the senses of musicians
performing in the confined spaces of an orchestra pit.
Musicians in these claustrophobic dug-outs can struggle to hear themselves
play, particularly if they鈥檙e seated in front of the brass or percussion
sections. This can cause a snowball effect as performers compete. 鈥淵ou start
playing louder to hear yourself and it quickly becomes a cacophony in the pit,鈥
says Morton.
This not only affects the quality of the performance but is dangerous for the
musicians, says Helmut Fuchs at the Fraunhofer Institute for Building Physics in
Stuttgart, who has measured maximum noise levels of more than 123 decibels in
orchestra pits. 鈥淓ven the average is far too high at around 90 decibels,鈥 he
says. 鈥淭here are no other places in the world with acoustic levels like that . .
. steel workers and pilots would have to wear ear protection under such
conditions.鈥 This isn鈥檛, of course, an option for orchestral musicians, who need
to hear both themselves and each other.
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Now help is at hand from a new type of acoustic absorber developed by Fuchs
and his colleagues. Orchestra pits are designed to project the 鈥渟ound image鈥
into the concert hall, rather than to the musicians themselves. But the cramped
quarters and close proximity of fellow players can cause near-deafening
reverberation as sound bounces off the nearby walls.
While acoustic panels capable of absorbing sound are available, the only ones
that could absorb the ear-blasting low frequencies that do most damage tend to
be at least a metre thick, says Fuchs. And that鈥檚 not exactly practical in an
orchestra pit.
The solution the Fraunhofer team has come up with is a new breed of acoustic
absorber that can handle a broad range of frequencies as low as 40 hertz, but
with only a tenth of the thickness of traditional absorbers.
Called an acoustic fibreless absorber, it essentially consists of a slim
sheet of plastic foam with a thin plate of steel on top. The panel absorbs sound
in two ways. The foam acts like a compressive spring absorbing frequencies as
the plate pushes against it, while the steel plate does the same by flexing. 鈥淚t
will extract airborne acoustic energy and transform it into heat by vibrating,鈥
says Fuchs.
He鈥檚 found the panel works best when there are as few fixture points as
possible between the steel and the foam. This allows more resonances to develop
and makes the panel work over the broadest range of frequencies. 鈥淭his is very
important and makes all the difference,鈥 explains Fuchs.
His panels have now been installed at the Landestheater in Flensburg and the
Staats- theater in Stuttgart, and have been warmly welcomed by musicians and
conductors alike. 鈥淭hey can now play as they like. With these acoustic panels no
one is forced to play louder than the conductor wants them to play,鈥 he says.
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More at:
Applied Acoustics (vol 63, p 203)