1 Scope
This test method covers the use of an impedance tube, two microphone locations and
a frequency analysis system for the determination of the sound absorption coefficient
of sound absorbing materials for normal incidence sound incidence. It can also be
applied for the determination of the acoustical surface impedance or surface admittance
of sound absorbing materials. As an extension, it can also be used to assess intrinsic
properties of homogeneous acoustical materials such as their characteristic impedance,
characteristic wavenumber, dynamic mass density and dynamic bulk modulus.
The test method is similar to the test method specified in ISO 10534‑1[1] in that it uses an impedance tube with a sound source connected to one end and the
test sample mounted in the tube at the other end. However, the measurement technique
is different. In this test method, plane waves are generated in a tube by a sound
source, and the decomposition of the interference field is achieved by the measurement
of acoustic pressures at two fixed locations using wall-mounted microphones or an
in-tube traversing microphone, and subsequent calculation of the complex acoustic
transfer function and quantities reported in the previous paragraph. The test method is intended to
provide an alternative, and generally much faster, measurement technique than that
of ISO 10534‑1[1].
Normal incidence absorption coefficients coming from impedance tube measurements are
not comparable with random incidence absorption coefficients measured in reverberation
rooms according to ISO 354[2]. The reverberation room method will (under ideal conditions) determine the sound
absorption coefficient for diffuse sound incidence. However, the reverberation room
method requires test specimens which are rather large. The impedance tube method is
limited to studies at normal and plane incidence and requires samples of the test
object which are of the same size as the cross-section of the impedance tube. For
materials that are locally reacting only, diffuse incidence sound absorption coefficients
can be estimated from measurement results obtained by the impedance tube method (see
Annex E).
Through the whole document, a
e
+
j
ω
t
time convention is used.