kw.\*:("Sound absorption")
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Using shock waves to improve the sound absorbing efficiency of closed-cell foamsDOUTRES, Olivier; ATALLA, Noureddine; BROUILLETTE, Martin et al.Applied acoustics. 2014, Vol 79, pp 110-116, issn 0003-682X, 7 p.Article
Manufacturing of PAN or PU Nanofiber Layers/PET Nonwoven Composite as Highly Effective Sound AbsorbersRABBI, Amir; BAHRAMBEYGI, Hossein; NASOURI, Komeil et al.Advances in polymer technology. 2014, Vol 33, Num 4, issn 0730-6679, 21425.1-21425.8Article
Controlling sound absorption by an upstream resistive layerCHEVILLOTTE, F.Applied acoustics. 2012, Vol 73, Num 1, pp 56-60, issn 0003-682X, 5 p.Article
Pilot study on wideband sound absorber obtained by combination of two different microperforated panel (MPP) absorbersSAKAGAMI, Kimihiro; NAGAYAMA, Yoshiki; MORIMOTO, Masayuki et al.Acoustical science and technology. 2009, Vol 30, Num 2, pp 154-156, issn 1346-3969, 3 p.Article
Experimental studies of sound absorption by church pewsMARTELLOTTA, F; CIRILLO, E.Applied acoustics. 2009, Vol 70, Num 3, pp 441-449, issn 0003-682X, 9 p.Article
Estimation of effective parameters for microperforated panel absorbers and applicationsLIU, J; HUA, X; HERRIN, D. W et al.Applied acoustics. 2014, Vol 75, pp 86-93, issn 0003-682X, 8 p.Article
Sound absorption characteristics of a double-leaf structure with an MPP and a permeable membraneSAKAGAMI, Kimihiro; FUKUTANI, Yusaku; YAIRI, Motoki et al.Applied acoustics. 2014, Vol 76, pp 28-34, issn 0003-682X, 7 p.Article
A generalized macroscopic model for sound-absorbing poroelastic media using the homogenization methodYAMAMOTO, T; MARUYAMA, S; TERADA, K et al.Computer methods in applied mechanics and engineering. 2011, Vol 200, Num 1-4, pp 251-264, issn 0045-7825, 14 p.Article
Double-leaf microperforated panel space absorbers : A revised theory and detailed analysisSAKAGAMI, Kimihiro; NAKAMORI, Tomohito; MORIMOTO, Masayuki et al.Applied acoustics. 2009, Vol 70, Num 5, pp 703-709, issn 0003-682X, 7 p.Article
A numerical study of double-leaf microperforated panel absorbersSAKAGAMI, Kimihiro; MORIMOTO, Masayuki; KOIKE, Wakana et al.Applied Acoustics. 2006, Vol 67, Num 7, pp 609-619, issn 0003-682X, 11 p.Article
Studies on the sound absorption characteristics of porous concrete based on the content of recycled aggregate and target void ratioSEUNG BUM PARK; DAE SEUK SEO; LEE, Jun et al.Cement and concrete research. 2005, Vol 35, Num 9, pp 1846-1854, issn 0008-8846, 9 p.Article
Design optimization of porous fibrous material for maximizing absorption of sounds under set frequency bandsSHUTIAN LIU; WENJIONG CHEN; YONGCUN ZHANG et al.Applied acoustics. 2014, Vol 76, pp 319-328, issn 0003-682X, 10 p.Article
Numerical analyses of the sound absorption of three-dimensional MPP space sound absorbersTOYODA, Masahiro; KOBATAKE, Seiji; SAKAGAMI, Kimihiro et al.Applied acoustics. 2014, Vol 79, pp 69-74, issn 0003-682X, 6 p.Article
Measuring the sound absorption properties of noise barriers with inverse filtered maximum length sequencesWEHR, R; HAIDER, M; CONTER, M et al.Applied acoustics. 2013, Vol 74, Num 5, pp 631-639, issn 0003-682X, 9 p.Article
Effects of HIPS on the Sound Absorption and Impedance Ratio of SEBS/HIPS/CaCO3 Polymer CompositesTASDEMIR, Münir; ERSOY, Sezgin; ULUG, Ebru et al.Polymer-plastics technology and engineering (Softcover ed). 2012, Vol 51, Num 7-9, pp 954-958, issn 0360-2559, 5 p.Article
A model comparison of the absorption coefficient of a Microperforated Insertion Unit in the frequency and time domainsCOBO, Pedro.Applied Acoustics. 2008, Vol 69, Num 1, pp 40-46, issn 0003-682X, 7 p.Article
Microperforated insertion units : An alternative strategy to design microperforated panelsPFRETZSCHNER, Jaime; COBO, Pedro; SIMON, Francisco et al.Applied Acoustics. 2006, Vol 67, Num 1, pp 62-73, issn 0003-682X, 12 p.Article
Acoustical barrier for tonal noisesMING, R. S.Applied Acoustics. 2005, Vol 66, Num 9, pp 1074-1087, issn 0003-682X, 14 p.Article
Schlieren photography to study sound interaction with highly absorbing materialsDECLERCQ, Nico F; DEGRIECK, Joris; LEROY, Oswald et al.Ultrasonics. 2005, Vol 43, Num 7, pp 505-507, issn 0041-624X, 3 p.Article
Modeling chairs and occupants to closely approximate the sound absorption of occupied full scale theatre chairsCHOI, Young-Ji.Applied acoustics. 2014, Vol 75, pp 52-58, issn 0003-682X, 7 p.Article
Spectral analysis of the flow sound interaction at a bias flow linerHAUFE, D; SCHULZ, A; BAKE, F et al.Applied acoustics. 2014, Vol 81, pp 47-49, issn 0003-682X, 3 p.Article
Sound absorption characteristics of a high-temperature sintering porous ceramic materialDUAN CUIYUN; CUI GUANG; XU XINBANG et al.Applied acoustics. 2012, Vol 73, Num 9, pp 865-871, issn 0003-682X, 7 p.Article
Acoustical and fire-retardant properties of jute composite materialsFATIMA, S; MOHANTY, A. R.Applied acoustics. 2011, Vol 72, Num 2-3, pp 108-114, issn 0003-682X, 7 p.Article
Effect of a honeycomb on the sound absorption characteristics of panel-type absorbersTOYODA, Masahiro; SAKAGAMI, Kimihiro; TAKAHASHI, Daiji et al.Applied acoustics. 2011, Vol 72, Num 12, pp 943-948, issn 0003-682X, 6 p.Article
Use of a hybrid adaptive finite element/modal approach to assess the sound absorption of porous materials with meso-heterogeneitiesSGARD, Franck; CASTEL, Franck; ATALLA, Noureddine et al.Applied acoustics. 2011, Vol 72, Num 4, pp 157-168, issn 0003-682X, 12 p.Article