Affiliation:
1. Feng Chia University
2. Fu Jen Catholic University
3. Taiwan Police College
4. Ling Tung University
5. Central Taiwan University of Science and Technology
Abstract
In this study, the basic material for sound absorption was porous nonwoven made of polyester nonwoven and low-melting polyester fiber. Nonwoven was then attached with foam polyurethane as composite plank for sound absorption and sound isolation. We used two microphone impedance tubes for sound absorption test and INSTRON 5566 mechanical testing machine for tensile test. The optimum sound absorption coefficients as 0.67 ± 0.008 was obtained when density of foam polyurethane was 1.0 Kg/m3 with thickness of 20 mm; Polyester nonwoven were 9 layers; and low-melting polyester fiber was 30 wt% with thickness of 10 mm. Specimens obtained the maximum fracture stress when it contained low-melting polyester fiber at 30~40 wt%. The results of this study could be applied in the partitions inside ships, vehicles or buildings.
Publisher
Trans Tech Publications, Ltd.
Reference5 articles.
1. J. S. Chang, G. R. Han, J. H. Jang, �oise vibration control, Gau-Lih publishing house, p.178~179, (2007).
2. Philips M. Morse, Richard H. Bolt, Richard L. Brown, Acoustic impedance and sound absorption, Journal of the Acoustic Society of America, Vol. 13, pp.217-227, (1940).
3. K. Attenborough, The influence of microstructure on propagation in porous fibrous absorbent, Journal of Sound and Vibration, Vol. 16, pp.419-442, (1971).
4. Leo L. Beranek, István L. Vér & Fridolin P. Mechel etc, �oise and Vibration Control Engineering:Principle and Applications, John Wiley, (1992).
5. Han-Seung Yang, Dae-Jun Kim, Hyun-Joong Kim, Rice straw-wood particle composite for sound absorbing wooden construction materials, Bioresource Technology 86, pp.117-121, (2003).
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