Improving Sound Transmission Through Triple-Panel Structure Using Porous Material and Sonic Crystal
Allard J.F., Atalla N. (2009), Propagation of Sound in Porous Media: Modelling Sound Absorbing Materials, John Wiley and Sons, Ltd., West Sussex.
Arjunan A., Wang C.J., Yahiaoui K. (2014), Development of a 3D ﬁnite element acoustic model to predict the sound reduction index of stud based double-leaf walls, Journal of Sound and Vibration, 333, 6140–6155.
Bies D.A., Hansen C.H. (1980), Flow resistance information for acoustical design, Applied Acoustics, 13, 357–391.
Bies D.A., Hansen C.H. (2009), Engeneering Noise Control: Theory and Practice, 4th edition, Spon Press, Abingdon, UK.
Biot M.A. (1956), Theory of propagation of elastic waves in a fluid-saturated porous solid I. Low-frequency range. II. Higher frequency range, Journal of the Acoustical Society of America, 28, 168–191.
Bolton J.S., Shiau N.M., Kang Y.J. (1996), Sound transmission through multi-panel structures lined with elastic porous materials, Journal of Sound and Vibration, 191, 317–347.
Brekke A. (1981), Calculation methods for the transmission loss of single, double and triple partitions, Applied Acoustics, 14, 225–240.
Champoux Y., Allard J. (1991), Dynamic tortuosity and bulk modulus in air-saturated porous media, Journal of Applied Physics, 70, 4, 1975–1979.
Delany M.E., Bazley E.N. (1970), Acoustical properties of fibrous absorbent materials, Applied Acoustics, 3, 105–116.
Doutres O., Atalla N. (2010), Acoustic contributions of a sound absorbing blanket placed in a double panel structure: Absorption versus transmission, Journal of the Acoustical Society of America, 128, 664–671.
Garcia-Raffi L.M., Salmeron-Contreras L.J., Herrero-Dura I. (2018), Broadband reduction of the specular reﬂections by using sonic crystals: A proof of concept for noise mitigation in aerospace applications, Aerospace Science and Technology, 73, 300–308.
Guild M.D., Rothk M., Sieck C.F., Rohde C., Gregory O. (2018), 3D printed sound absorbers using functionally-graded sonic crystals, Journal of the Acoustical Society of America, 143, 1714–1714.
Gulia P., Gupta A. (2018a), Increasing low frequency sound attenuation using compounded single layer of sonic crystal, AIP Conference Proceedings, 1953, pp. 140072:1–4, India.
Gulia P., Gupta A. (2018b), Enhancing the sound transmission loss through acoustic double panel using sonic crystal and porous material, Journal of the Acoustical Society of America, 144, 1435–1442.
Gupta A., Lim K.M., Chew C.H. (2011), Analysis of frequency band structure in one-dimensional sonic crystal using Webster horn equation, Applied Physics Letters, 98, 201906.
Johnson D.L., Koplik J., Dashen R. (1987), Theory of dynamic permeability and tortuosity in fluid-saturated porous media, Journal of Fluid Mechanics, 176, 379–402.
Kang Y.J., Bolton J.S. (1996), A ﬁnite element model for sound transmission through foam lined double panel structure, Journal of the Acoustical Society of America, 99, 2755–2755.
Kinsler L.E., Frey A.R., Coppens A.B., Sanders J.V. (2000), Fundamentals of Acoustics, Wiley, California.
Lafarge D., Lemarinier P., Allard J.F. (1997), Dynamic compressibility of air in porous structures at audible frequencies, Journal of the Acoustical Society of America, 102, 1995–2006.
Lee J.S., Kim E.I., Kim Y.Y., Kim J.S., Kang Y.J. (2007), Optimal poroelastic layer sequencing for sound transmission loss maximization by topology optimization method, Journal of the Acoustical Society of America, 122, 2097–2106.
Liu Y. (2015), Sound transmission through triple-panel structures lined with poroelastic materials, Journal of Sound and Vibration, 339, 376–395.
Martinez-Sala R., Sancho J., Sanchez J.V., Gomez V., Llinares J., Meseguer F. (1995), Sound attenuation by sculpture, Nature, 378, 6554, 241–241.
Panneton R., Atalla N. (1996), Numerical prediction of sound transmission through finite multilayer systems with poroelastic materials, Journal of the Acoustical Society of America, 100, 346–354.
Pellicier A., Trompette N. (2007), A review of analytical methods, based on the wave approach to compute partitions transmission loss, Applied Acoustics, 68, 1192–1212.
Putra A., Ismail A.Y., Ramlan R., Ayob R., Py M.S. (2013), Normal incidence of sound transmission loss of a double-leaf partition inserted with a microperforated panel, Advances in Acoustics and Vibration, 216493.
Quirt J.D. (1983), Sound transmission through windows II. double and triple glazing, Journal of the Acoustical Society of America, 74, 534–542.
Sanchez-Dehesa J., Garcia-Chocano V.M., Torrent D., Cervera F., Cabrera S., Simon F. (2011), Noise control by sonic crystal barriers made of recycled materials, Journal of the Acoustical Society of America, 129, 1173–1173.
Sanchez-Perez J.V., Rubio C., Martinez-Sala R., Sanchez-Grandia R., Gomez V. (2002), Acoustic barriers based on periodic arrays of scatterers, Applied Physics Letters, 81, 27, 5240–5242.
Sgard F.C., Atalla N., Nicolas J. (2000), A numerical model for the low frequency diffuse field sound transmission loss of double-wall sound barriers with elastic porous linings, Journal of the Acoustical Society of America, 108, 2865–2872.
Sharp B.H. (1973), A Study of Techniques to Increase of the Sound Insulation of Building Elements, PB 222 829, U.S. Department of Commerce, National Technical Information Service (NTIS).
Tadeu A.J.B., Mateus D.M.R. (2001), Sound transmission through single, double and triple glazing. Experimental evaluation, Applied Acoustics, 62, 307–325.
Tanneau O., Casimir J.B., Lamary P. (2006), Optimization of multilayered panels with poroelastic components for an acoustical transmission objective, Journal of the Acoustical Society of America, 120, 1227–1238.
Wang J., Lu T.J., Woodhouse J., Langley R.S., Evans J. (2005), Sound transmission through lightweight double-leaf partitions: Theoretical modelling, Journal of Sound and Vibration, 286, 817–847.
Xin F.X., Lu T.J. (2011), Analytical modeling of sound transmission through clamped triple-panel partition separated by enclosed air cavities, European Journal of Mechanics A/Solids, 30, 770–782.
Xin F.X., Lu T.J., Chen C.Q. (2008), Vibroacoustic behavior of clamp mounted double-panel partition with enclosure air cavity, Journal of the Acoustical Society of America, 124, 3604–3612.
Zhou J., Bhaskar A., Zhang X. (2013a), Optimization for sound transmission through a double-wall panel, Applied Acoustics, 74, 1422–1428.
Zhou J., Bhaskar A., Zhang X. (2013b), Sound transmission through a double-panel construction lined with poroelastic material in the presence of mean flow, Journal of Sound and Vibration, 332, 3724–3734.
Zwikker C., Kosten C.W. (1949), Sound Absorbing Materials, Elsevier, New York.
Copyright © Polish Academy of Sciences & Institute of Fundamental Technological Research (IPPT PAN)