Referensi Jurnal Material Akustik Pendahuluan.docx

REFERENSI JURNAL MATERIAL AKUSTIK PENDAHULUAN 1. Bies D A, Hansen C H. Engineering Noise Control. London: Spon Press, 2009. 2. T. D. Rossing, Springer Handbook of Acoustics, 2nd ed. Heidelberg: Springer-Verlag GmbH, 2014. 3. J. P. Arenas and M. J. Crocker, “Recent Trends in Porous Sound-Absorbing Materials,” Sound Vib., vol. 44, no. 7, pp. 12–17, 2010. 4. H. F. Xiang, D. Wang, H. C. Liua, N. Zhao, and J. Xu, “Investigation on sound absorption properties of kapok fibers,” Chinese J. Polym. Sci. (English Ed., vol. 31, no. 3, pp. 521–529, 2013. 5. D. V. Parikh, Y. Chen, and L. Sun, “Reducing Automotive Interior Noise with Natural Fiber Nonwoven Floor Covering Systems,” Text. Res. J., vol. 76, no. 11, pp. 813–820, 2006. 6. N. Jiang, J. Y. Chen, and D. V Parikh, “Acoustical evaluation of carbonized and activated cotton nonwovens,” Bioresour. Technol., vol. 100, pp. 6533–6536, 2009. 7. A. Putra, Y. Abdullah, H. Efendy, W. M. Farid, M. R. Ayob, and M. S. Py, “Utilizing sugarcane wasted fibers as a sustainable acoustic absorber,” Procedia Eng., vol. 53, pp. 632–638, 2013. 8. A. Ashori, “Wood – plastic composites as promising green-composites for automotive industries,” Bioresour. Technol., vol. 99, pp. 4661–4667, 2008. 9. S. Ersoy and H. Küçük, “Investigation of industrial tea-leaf-fibre waste material for its sound absorption properties,” Appl. Acoust., vol. 70, pp. 215–220, 2009. 10. H. Yang, D. Kim, Y. Lee, H. Kim, J. Jeon, and C. Kang, “Possibility of using waste tire composites reinforced with rice straw as construction materials,” Bioresour. Technol., vol. 95, pp. 61–65, 2004. 11. A. Putra, Y. Abdullah, H. Efendy, W. M. F. W. Mohamad, and N. L. Salleh, “Biomass from paddy waste fibers as sustainable acoustic material,” Adv. Acoust. Vib., vol. 2013, 2013. 12. V. Tarnow, “Fiber movements and sound attenuation in glass wool,” J. Acoust. Soc. Am., vol. 105, no. 1, pp. 234–240, 1999. 13. H. F. Xiang et al., “Sound Absorption Behavior of Electrospun Polyacrylonitrile Nanofibrous Membranes,” Chinese J. Polym. Sci., vol. 29, no. 6, pp. 650–657, 2011. 14. K. Kosuge, A. Takayasu, and T. Hori, “Recyclable flame retardant nonwoven for sound absorption; RUBA_,” J. Mater. Sci., vol. 40, no. 20, pp. 5399–5405, 2005. 15. Li Y, Mai Y W, Ye L. Sisal fibre and its composites: A review of recent developments. Compos Sci Technol, 2000, 60: 2037–2055 16. Meyers M A, Chen P Y, Lin Y M, et al. Biological materials: Structure and mechanical properties. Prog Mater Sci, 2008, 56: 1–206 17. Ersoy S, Küçük H. Investigation of industrial tea-leaf-fiber waste material for its sound absorption properties. Appl Acoust, 2009, 70: 215–220 18. Fouladi M H, Nor M J M, Ayub M, et al. Acoustic properties of multilayer coir fibers sound absorption panel. Appl Acoust, 2010, 71: 241–249 19. Fouladi M H, Ayub M, Nor M J M. Analysis of coir fiber acoustical characteristics. Appl Acoust, 2011, 72: 35–42 20. Ramis J, Alba J, Rey R, et al. New absorbent material acoustic based on kenaf’s fibre. Mater Construcc, 2010, 60: 133–143 21. Voronina N. Acoustic properties of fibrous materials. Appl Acoust, 1994, 42: 165–174

22. F. Asdrubali, “Survey on The Acoustical Properties of New Sustainable Materials for Noise Control,” in Euronoise, 2006. 23. F. Asdrubali, S. Schiavoni, and K. V. Horoshenkov, “A Review of Sustainable Materials for Acoustic Applications,” Build. Acoust., vol. 19, no. 4, pp. 283–311, 2012. 24. World Health Organization (WHO), “Air quality guidelines for Europe.” 2000. 25. Mohd Nor MJ, Jamaludin N, Mohd Tamiri F. A preliminary study of sound absorption using multi-layer coconut coir fibers. Electron J Tech Acoust 2004;3:1–8. 26. Mohd Nor MJ, Jamaludin N, Mohd Tamiri F. Effect of perforated panel in acoustics absorption performance of coir fiber material. In: 12th International congress on sound and vibration; 2005. 27. Ersoy S, Küçük H. Investigation of industrial tea-leaf-fibre waste material for its sound absorption properties. Appl Acoust 2009;70:215–20. 28. Yang W, Li Y. Sound absorption performance of natural fibers and their composites. Sci China Technol Sci 2012:1–6. 29. K. H. Or, A. Putra, and M. Z. Selamat, “Oil palm empty fruit bunch fibres as sustainable acoustic absorber,” Appl. Acoust., vol. 119, pp. 9–16, 2017. 30. Basto LP, de Melo GdSV, Soeiro NS. Panels manufactured from vegetable fibers: an alternative approach for controlling noises in indoor environments. Adv Acoust Vib 2012;698737:1–9. 31. Putra A, Abdullah Y, Efendy H, Farid WM, Ayub MR, Py MS. Utilizing sugarcane wasted fibers as a sustainable acoustic absorber. Proc Eng 2013;53:632–8. 32. Mogea J., Seibert B., Smiths W., Agroforestry Systems 1991; 13(2): 111-129. 33. Leman Z., Sapuan S.M., Saifol A.M., Maleque M.A. and Ahmad M.M., Mater. Design 2008; 29(8): 1666-1670.