10.1515/aoa-2015-0060
Utilizing Hollow-Structured Bamboo as Natural Sound Absorber
References
Asdrubali F., Schiavoni S., Horoshenkov K.V. (2012), A review of sustainable materials for acoustic applications, Journal of Building Acoustics, 19, 4, 283–311.
Asdrubali F., D’Alessandro F., Mencarelli N., Horoshenkov K.V. (2014), Sound absorption properties of tropical plants for indoor applications, Proceedings of the 21st International Congress on Sound and Vibration, China.
Azevedo L.J., Nabuco M. (2005), Sound absorption of sisal fiber panels, Proceedings of the Congress and Exposition on Noise Control Engineering, Brazil.
Ballagh K.O. (1996), Acoustical properties of wool, Applied Acoustics, 48, 2, 101–120.
Bastos L.P., de Melo G.d.S.V., Soeiro N.S. (2012), Panels manufactured from vegetable fibers: An alternative approach for controlling noises in indoor
environments. Advances in Acoustics and Vibration, Article ID 698737, 1–9.
Eriningsih R. (2009), Ramie fiber composite and ramie waste as natural sound absorber [in Indonesia], Arena Tekstil, 2, 1, 1–59.
Ersoy S., Kucuk H. (2009), Investigation of industrial tea-leaf fibre waste material for its sound absorption properties, Applied Acoustics, 70, 1, 215–220.
Fatima S., Mohanty A.R. (2011), Acoustical and fire-retardant properties of jute composit materials, Applied Acoustics, 72, 108–114.
Fouladi M.H., Ayub Md., Nor M.J.M. (2011), Analysis of coir fiber acoustical characteristics, Applied Acoustics, 72, 35–42.
Ismail L., Ghazali M.I., Mahzan S., Zaidi A.M.A. (2010), Sound absorption of Arenga pinnata fiber, World Academy of Science, Engineering and Technology, 67, 804–806.
ISO (2011), ISO 10534-2 Acoustic determination of sound absorption coefficient and impedance tubes part 2: transfer function method.
Joshi S.V., Drzal L.T., Mohanty A.K., Arora S. (2004), Are natural fiber composites environmentally superior to glass fiber reinforced composites?, Composites, 35, 371–376.
Koizumi T., Tsujiuchi N., Adachi A. (2002), The development of sound absorbing materials using natural bamboo fibers, High Performance Structures and Materials, 4, 157–166.
Oldham D.J., Egan C.A., Cookson R.D. (2011), Sustainable acoustic absorbers from the biomass, Applied Acoustics, 72, 350–363.
Putra A., Abdullah Y., Efendy H., Farid W.M., Salleh N.L. (2013a), Biomass from paddy waste fibers as sustainable acoustic material, Advances in Acoustics and Vibration, 23, 1–7.
Putra A., Abdullah Y., Efendy H., Farid W.M., Ayob R.Md., Py M.S. (2013b), Utilizing sugarcane wasted fibers as a sustainable acoustic absorber, Procedia Engineering, 53, 632–638.
Stumpf Gonzlez M.A., Flach F., Reschke Pires J., Piva Kulakowski M. (2013), Acoustic Absorption of Mortar Composites with Waste Material,
Archives of Acoustics, 38, 3, 417–423.
Wassilieff C. (1996), Sound absorption of wood-based materials, Applied Acoustics, 48, 4, 339–356.
Yang H.S., Kim D.J., Kim H.J. (2003), Rice strawwood particle composite for sound absorbing wooden construction materials, Bioresource Technology, 86, 117–121.
Zulkifli R., Zulkarnain, Nor M.J.M. (2010), Noise control using coconut coir fiber sound absorber with porous layer backing and perforated panel, American Journal and Applied Sciences, 7, 2, 260–0264.
DOI: 10.1515/aoa-2015-0060