A Study on Organic-Inorganic Hybrid Sound Absorbing Materials Using by Recycling Gypsum |
Shin, Hyun-Gyoo
(Material Technology Center, Korea Testing Laboratory)
Jeon, Bo-Ram (Material Technology Center, Korea Testing Laboratory) Ha, Joo-Yeon (Material Technology Center, Korea Testing Laboratory) Jeon, Chan-Soo (Building and Urban Research Institute, Korea Institute of Civil Engineering Technology) |
1 | Allard, J., Atalla, N. (2009). Propagation of Sound in PorousMedia: Modelling Sound Absorbing Materials, John Wiley &Sons, 2nd Ed., UK |
2 | Christensen, J., Romero-Garcia, V., Pico, R., Cebrecos, A., Garcia de Abajo, F.J., Mortensen, N.A., Willatzen, M.,Sanchez-Morcillo, V.J. (2014). Extraordinary Absorption ofSound in Porous Lamella-crystals, Scientific Reports, 4, 4674. |
3 | Cox, T.J., D'Antonio, P. (2009). Acoustic Absorbers and Diffusers:Theory, Design, and Application, CRC Press, 2nd Ed., USA |
4 | Groby, J.P., Wirgin, A., De Ryck, L., Lauriks, W., Gilbert, R.P., Xu, Y.S. (2009). Acoustic response of a rigid-frameporous medium plate with a periodic set of inclusions,Journal of Acoustical Society of America, 126(2), 685-693. DOI |
5 | Groby, J.P., Dazel, O., Duclos, A., Boeckx, L., Kelders, L. (2011). Enhancing the absorption coefficient of a backed rigid frame porous layer by embedding circular periodic inclusions, Journal of Acoustical Society of America, 130(6), 3771-3780. DOI |
6 | Jung, S.S., Hwang, C.H. (1996). A study on the acoustical characteristics of the absorbent materials using two microphones, Transactions of the Korean Society for Noise and Vibration Engineering, 6(2), 225-232 [in Korean]. |
7 | Lagarrigue, C., Groby, J.P., Tournat, V., Dazel, O., Umnova, O. (2013). Absorption of sound by porous layers with embedded periodic arrays of resonant inclusions, Journal of Acoustical Society of America, 134(6), 4670-4680. DOI |
8 | 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 Acoustical Society of America, 122(4), 2097-2106. DOI |
9 | Lee, J.S., Kim, Y.Y., Kim, J.S., Kang, Y.J. (2008). Two-dimensional poroelastic acoustical foam shape design for absorption coefficient maximization by topology optimization method, Journal of Acoustical Society of America, 123(4), 2094-2106. DOI |
10 | Li, J., Fok, L., Yin, X., Bartal, G., Zhang, X. (2009). Experimental demonstration of an acoustic magnifying hyperlens, Nature Materials, 8(12), 931-934. DOI |
11 | Tanneau, O., Casimir, J. B., Lamary, P. (2006). Optimization of multilayered panels with poroelastic components for an acoustical transmission objective, Journal of Acoustical Society of America, 120(3), 1227-1238. DOI |
12 | Yang, J., Lee, J.S., Kim, Y.Y. (2015). Metaporous layer to overcome the thickness constraint for broadband sound absorption, Journal of Applied Physics, 117(17), 174903. DOI |