References
- ASTM E2611-09 Standard test method for measurement of normal incidence sound transmission of acoustical materials based on the transfer matrix method.
- Kang, C.-W., Lee, Y.-H., Kang, H.-Y., Kang, W., Xu, H.-R., Chung, W.-Y. 2011. Radial variation of sound absorption capability in the cross sectional surface of yellow poplar wood. Journal of the Korean Wood Science and Technology 39(4): 326-332. https://doi.org/10.5658/WOOD.2011.39.4.326
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- Kang, C.-W., Oh, S.-W., Lee, T.-B., Kang, W., Matsumura, J. 2012. Sound absorption capability and mechanical properties of a composite rice hull and sawdust board. Journal of Wood Science 8: 273-278.
- Kang, C.-W., Park, H.-J., Jeon, S.-S. 2012. Sound absorption capability and bending strength of Miscanthus particle based board. Journal of the Korean Wood Science and Technology 40(1): 38-43. https://doi.org/10.5658/WOOD.2012.40.1.38
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- Kim, J.-S. 2007. Characteristics of sound from construction equipment machinery room International Journal of Air-Conditioning and Refrigeration 36(1): 19-25.
- Kook, J.-H., Jung, C.-W., Yun, J.-H., Kim, J.-S. 2007. Experimental study on wall sound transmission loss at construction equipment machinery room. Transactions of the Korean Society of Noise and Vibration Engineering 2007.3: 695-699.
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- Hwang, S.-M., Kim, J.-D., Kwon, H., Seo, Y.-S. 2013. Sound transmission loss through double walls. International journal of naval architecture and ocean engineering 50(2): 64-68.
- KS F ISO 10140-2 (2010) Acoustics--Laboratory measurement of sound insulation of building elements -- Part 2: Measurement of airborne sound insulation.