Handbook for Sound Engineers

(Wang) #1
Acoustics for Auditoriums and Concert Halls 179

restrictive role for the possible mass of the reflectors.
For spoken performances an area-related mass of 5 to
7 kg/m^2 (0.2 to 0.3 lbs/ft^2 ) may still produce acceptable
results, to which effect plastic mats of high surface
density are suitable. The additional room-acoustical
measure usually employed for enhancing the sound


reflection of bass instruments with music performances
consists in appropriate wall surfaces, so that the installa-
tion of heavy panels can be abandoned. In this case an
area-related mass of 20 kg/m^2 (0.8 lbs/ft^2 ) is sufficient.
If a multiple reflection occurs close to edges of
surfaces, there results, if the edge is at right angle to the
surface, a sound reflection with a path parallel to the
direction of the sound incidence, Fig. 7-40. In corners,
this effect acquires a 3D nature, so that the sound
always gets reflected to its source, independently of the
angle of incidence. With long travel paths it is possible
that very disturbing sound reflections are caused at
built-in doors, lighting stations, setoffs in wall paneling,
which for the primary structure of a room are known as
“theater echo” (see Section 7.3.3.2.2).

7.3.4.2 Sound Reflection at Smooth Curved Surfaces

If the linear dimensions of smooth curved surfaces are
much bigger than the wavelength of the effective sound
components, the sound is reflected from these surfaces
according to the laws of concentrating reflectors.
Concavely curved 2D or 3D surface elements may,
under certain geometrical conditions, lead to sound
concentrations while convex curvatures always have a
sound scattering effect.
For axis-near reflection areas (incident angle less
than 45°) of a surface curved around the center of
curvature M, it is possible to derive the following
important reflection variants, Fig. 7-41.

Circular Effect. The sound source is located in the
center of curvature M of the reflecting surface, Fig.
7-41A. All irradiated sound rays become concentrated
in M after having covered the radius twice, so that a
speaker may, for instance, be heavily disturbed by his
own speech.

Figure 7-38. Geometrical sound reflections.

Figure 7-39. Minimum size of surfaces for geometrical
sound reflections.

a (^1) a 2
AB
b
Sound source
Listener
Figure 7-40. Multiple reflection in room edges.

Free download pdf