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Journal of Natural Fibers Volume 17, 2020 - Issue 12
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Review

Measuring Methods of Acoustic Properties and Influence of Physical Parameters on Natural Fibers: A Review

S Gokulkumara Department of Mechanical Engineering, KPR Institute of Engineering and Technology, Coimbatore, Tamilnadu, IndiaCorrespondence[email protected]
,
PR Thylab Department of Mechanical Engineering, PSG College of Technology, Coimbatore, Tamilnadu, India
,
L Prabhua Department of Mechanical Engineering, KPR Institute of Engineering and Technology, Coimbatore, Tamilnadu, India
&
S Sathisha Department of Mechanical Engineering, KPR Institute of Engineering and Technology, Coimbatore, Tamilnadu, India
Pages 1719-1738 | Published online: 06 Apr 2019

References

  • Ali, M. 2016. Microstructure, thermal analysis and acoustic characteristics of Calotropis procera (apple of sodom) fibers. Journal of Natural Fibers 13 (3):343–52. doi:10.1080/15440478.2015.1029198.
  • Allard, J., and N. Atalla. 2009. Propagation of sound in porous media: Modelling sound absorbing materials. Propagation of sound in porous media, Ed. 2. A John Wiley and Sons, Ltd., Publication.
  • ALRahman, L. A., R. I. Raja, R. A. Rahman, and Z. Ibrahim. 2014. Comparison of acoustic characteristics of date palm fibre and oil palm fibre. Research Journal of Applied Sciences, Engineering and Technology 7 (8):1656–61.
  • AL-Rahman, L. A., R. I. Raja, R. A. Rahman, and Z. Ibrahim. 2012. Acoustic properties of innovative material from date palm fibre. American Journal of Applied Sciences 9 (9):1390.
  • Arenas, J. P., and M. J. Crocker. 2010. Recent trends in porous sound-absorbing materials. Sound & Vibration 44 (7):12–18.
  • Arun Ramnath, R., P. R. Thyla, N. Mahendra Kumar, and S. Aravind. 2018. Optimization of machining parameters of composites using multi-attribute decision-making techniques: A review. Journal of Reinforced Plastics and Composites 37 (2):77–89. doi:10.1177/0731684417732840.
  • Asdrubali, F., S. Schiavoni, and K. V. Horoshenkov. 2012. A review of sustainable materials for acoustic applications. Building Acoustics 19 (4):283–311. doi:10.1260/1351-010X.19.4.283.
  • Attenborough, K. 1993. Models for the acoustical characteristics of air filled granular materials. Acta Acust 1:213–26.
  • Ayub, M., R. Zulkifli, M. H. Fouladi, N. Amin, and M. J. M. Nor. 2011. A study on the acoustical absorption behavior of coir fiber using miki model. International Journal of Mechanical and Materials Engineering 6 (3):343–49.
  • Ballagh, K. O. 1996. Acoustical properties of wool. Applied Acoustics 48 (2):101–20. doi:10.1016/0003-682X(95)00042-8.
  • Berardi, U., and G. Iannace. 2015. Acoustic characterization of natural fibers for sound absorption applications. Building and Environment 94:840–52. doi:10.1016/j.buildenv.2015.05.029.
  • Berardi, U., G. Iannace, and M. Di Gabriele. 2017. The acoustic characterization of broom fibers. Journal of Natural Fibers 14 (6):858–63. doi:10.1080/15440478.2017.1279995.
  • Bies, D. A., and C. H. Hansen. 1980. Flow resistance information for acoustical design. Applied Acoustics 13 (5):357–91.
  • Bin Bakri, M. K., E. Jayamani, S. K. Heng, S. Hamdan, and A. Kakar. 2017. An experimental and simulation studies on sound absorption coefficients of banana fibers and their reinforced composites. In Nano Hybrids and Composites 12:9–20. doi:10.4028/www.scientific.net/NHC.12.9.
  • Borlea, A., T. Rusu, O. Vasile, and A. Gheorghe 2012. Soundproofing materials whit recycled rubber particles and sawdust. Proceedings of the 23th SISOM: Session of the Commission of Acoustics (Ed. Mediamira), Bucharest. May.
  • Castagnede, B., A. Aknine, B. Brouard, and V. Tarnow. 2000. Effects of compression on the sound absorption of fibrous materials. Applied Acoustics 61 (2):173–82. doi:10.1016/S0003-682X(00)00003-7.
  • Christie, D. R. 1976. Measurement of the acoustic properties of a sound absorbing material at high temperatures. Journal of Sound and Vibration 46 (3):347–55. doi:10.1016/0022-460X(76)90859-2.
  • Crocker, M. J.2007. Handbook of noise and vibration control. 1st ed. John Wiley & Sons. United States: Wiley.
  • Cuthbertson, D., U. Berardi, C. Briens, and F. Berruti. 2019. Biochar from residual biomass as a concrete filler for improved thermal and acoustic properties. Biomass and Bioenergy 120:77–83.
  • D‘Alessandro, F., and G. Pispola. 2005. Sound absorption properties of sustainable fibrous materials in an enhanced reverberation room. In INTER-NOISE and NOISE-CON Congress and Conference Proceedings. Institute of Noise Control Engineering. Jul5. Rio de Janeiro BRAZIL.
  • Dunn, I. P., and W. A. Davern. 1986. Calculation of acoustic impedance of multi-layer absorbers. Applied Acoustics 19 (5):321–34. doi:10.1016/0003-682X(94)90005-1.
  • Ekici, B., A. Kentli, and H. Küçük. 2012. Improving sound absorption property of polyurethane foams by adding tea-leaf fibers. Archives of Acoustics 37 (4):515–20. doi:10.2478/v10168-012-0052-1.
  • Elwaleed, A. K., N. Nikabdullah, M. J. Nor, M. F. Tahir, and R. Zulkifli. 2013. Experimental investigation of sound absorption properties of perforated date palm fibers panel. In IOP Conference Series: Materials Science and Engineering 46:012027.
  • Ersoy, S., and H. Küçük. 2009. Investigation of industrial tea-leaf-fibre waste material for its sound absorption properties. Applied Acoustics 70 (1):215–20. doi:10.1016/j.apacoust.2007.12.005.
  • Fouladi, M. H., M. H. Nassir, M. Ghassem, M. Shamel, S. Y. Peng, S. Y. Wen, P. Z. Xin, and M. J. Nor. 2013. Utilizing Malaysian natural fibers as sound absorber. In Modeling and measurement methods for acoustic waves and for acoustic microdevices, IntechOpen.
  • Garai, M., and F. A. Pompoli. 2005. Simple empirical model of polyester fibre materials for acoustical applications. Applied Acoustics 66 (12):1383–98. doi:10.1016/j.apacoust.2005.04.008.
  • Grondzik, W. T., and A. G. Kwok. 2014. Mechanical and electrical equipment for buildings. John Wiley & Sons. United States : Wiley.
  • Hassan, N. N., and A. Z. Rus. 2013. Influences of thickness and fabric for sound absorption of biopolymer composite. In Applied Mechanics and Materials 393:102–07. doi:10.4028/www.scientific.net/AMM.393.102.
  • Huang, K., L. Q. N. Tran, U. Kureemun, W. S. Teo, and H. P. Lee. 2018. Vibroacoustic behavior and noise control of flax fiber-reinforced polypropylene composites. Journal of Natural Fibers. doi:10.1080/15440478.2018.1433096.
  • Ismail, L., M. I. Ghazali, S. Mahzan, and A. M. Zaidi. 2010. Sound absorption of Arenga pinnata natural fiber. World Academy of Science, Engineering and Technology 67:804–06.
  • ISO B. 354. 2003. Acoustics–measurement of sound absorption in a reverberation room. British Standards Institution. London, W4 4AL, UK.
  • ISO IS. 10534-1. 1996. Acoustics–Determination of sound absorption coefficient and impedance in impedance tubes-Part 1: Method using standing wave ratio. International Standard. London, W4 4AL, UK.
  • Jayamani, E., S. Hamdan, M. R. Rahman, and M. K. Bakri. 2014. Investigation of fiber surface treatment on mechanical, acoustical and thermal properties of betelnut fiber polyester composites. Procedia Engineering 97:545–54. doi:10.1016/j.proeng.2014.12.282.
  • Khidir, E. A., N. Nikabdullah, M. J. Nor, M. F. Tahir, and M. Z. Nuawi. 2014. A preliminary study on the sound absorption of self-facing date palm fibers. In Applied Mechanics and Materials 565:25–30. doi:10.4028/www.scientific.net/AMM.565.25.
  • Koizumi, T., N. Tsujiuchi, and A. Adachi. 2002. The development of sound absorbing materials using natural bamboo fibers. WIT Transactions on the Built Environment 25:59. doi:10.2495/HPS020161.
  • Kumaresan, M., S. Sathish, and N. Karthi. 2015. Effect of fiber orientation on mechanical properties of sisal fiber reinforced epoxy composites. Journal of Applied Science and Engineering 18 (3):289–94.
  • Lee, H. P., B. M. Ng, A. V. Rammohan, and L. Q. Tran. 2017. An investigation of the sound absorption properties of flax/epoxy composites compared with glass/epoxy composites. Journal of Natural Fibers 14 (1):71–77. doi:10.1080/15440478.2016.1146643.
  • Lee, J., and G. W. Swenson Jr. 1992. Compact sound absorbers for low frequencies. Noise Control Engineering Journal 38 (3):109–18.
  • Lim, Z. Y., A. Putra, M. J. M. Nor, and M. Y. Yaakob. 2018. Sound absorption performance of natural kenaf fibres. Applied Acoustics 130:107–14.
  • Liu, X., X. Yan, L. Li, and H. Zhang. 2015. Sound-absorption properties of kapok fiber nonwoven fabrics at low frequency. Journal of Natural Fibers 12 (4):311–22. doi:10.1080/15440478.2014.919891.
  • Maderuelo-Sanz, R., J. M. Barrigón Morillas, M. Martín-Castizo, V. Gómez Escobar, and G. Rey Gozalo. 2013. Acoustical performance of porous absorber made from recycled rubber and polyurethane resin. Latin American Journal of Solids and Structures 10 (3):585–600. doi:10.1590/S1679-78252013000300008.
  • Maderuelo-Sanz, R., A. V. Nadal-Gisbert, J. E. Crespo-Amorós, and F. Parres-García. 2012. A novel sound absorber with recycled fibers coming from end of life tires (ELTs). Applied Acoustics 73 (4):402–08. doi:10.1016/j.apacoust.2011.12.001.
  • Na, Y., and G. Cho. 2010. Sound absorption and viscoelastic property of acoustical automotive nonwovens and their plasma treatment. Fibers and Polymers 11 (5):782–89.
  • Nor, M. J., N. Jamaludin, and F. M. Tamiri. 2004. A preliminary study of sound absorption using multi-layer coconut coir fibers. Electronic Journal Technical Acoustics 3:1–8.
  • Pan, J., and P. Jackson. 2009. Review of test methods for material properties of elastic porous materials. SAE International Journal of Materials and Manufacturing 2:570–79. doi:10.4271/2009-01-2135.
  • Peng, L., B. Song, J. Wang, and D. Wang. 2015. Mechanic and acoustic properties of the sound-absorbing material made from natural fiber and polyester. Advances in Materials Science and Engineering. 2015:1-5. doi:10.1155/2015/274913
  • Pfretzschner, J. 2002. Rubber crumb as granular absorptive acoustic material. In Proceedings of the Forum Acusticum, Sevilla.
  • Putra, A., Y. Abdullah, H. Efendy, W. M. Farid, M. R. Ayob, and M. S. Py. 2013. Utilizing sugarcane wasted fibers as a sustainable acoustic absorber. Procedia Engineering 53::632–638.
  • Qingbo, A., W. Jianzhong, T. Huiping, Z. Hao, M. Jun, and B. Tengfei. 2015. Sound absorption characteristics and structure optimization of porous metal fibrous materials. Rare Metal Materials and Engineering 44 (11):2646–50.
  • Rwawiire, S., B. Tomkova, J. Militky, L. Hes, and B. M. Kale. 2017. Acoustic and thermal properties of a cellulose nonwoven natural fabric (barkcloth). Applied Acoustics 116:177–83.
  • Sakamoto, S., Y. Takauchi, K. Yanagimoto, and S. Watanabe. 2011. Study for sound absorbing materials of biomass tubule etc. Journal of Environment and Engineering 6 (2):352–64. doi:10.1299/jee.6.352.
  • Santhanam, S., S. Temesgen, D. Atalie, and G. Ashagre. 2018. Recycling of cotton and polyester fibers to produce nonwoven fabric for functional sound absorption material. Journal of Natural Fibers 8:1–7. doi:10.1080/15440478.2017.1418472.
  • Sathish, S., K. Kumaresan, L. Prabhu, and S. Gokulkumar. 2018. Experimental investigation of mechanical and FTIR analysis of flax fiber/epoxy composites incorporating SiC, Al2O3 and graphite. Romanian Journal of Materials 48 (4):315–23.
  • Sathish, S., K. Kumaresan, L. Prabhu, and N. Vigneshkumar. 2017. Experimental investigation on volume fraction of mechanical and physical properties of flax and bamboo fibers reinforced hybrid epoxy composites. Polymers & Polymer Composites 25 (3):229–36.
  • Seddeq, H. S. 2009. Factors influencing acoustic performance of sound absorptive materials. Australian Journal of Basic and Applied Sciences 3 (4):4610–17.
  • Soltani, P., and M. Zerrebini. 2012. The analysis of acoustical characteristics and sound absorption coefficient of woven fabrics. Textile Research Journal 82 (9):875–82. doi:10.1177/0040517511402121.
  • Standard, B. 2001. Acoustics-determination of sound absorption coefficient and impedance in impedance tubes—part 2: Transfer-function method. BS EN ISO:10534-2.
  • Tayong, R., T. Dupont, and P. Leclaire. 2013. Sound absorption of a micro-perforated plate backed by a porous material under high sound excitation: Measurement and prediction. International Journal of Engineering & Technology 2 (4):281.
  • Thilagavathi, G., S. Neela Krishnan, N. Muthukumar, and S. Krishnan. 2018. Investigations on sound absorption properties of luffa fibrous mats. Journal of Natural Fibers 15 (3):445–51. doi:10.1080/15440478.2017.1349016.
  • Tiuc, A. E., H. Vermeşan, T. Gabor, and O. Vasile. 2016. Improved sound absorption properties of polyurethane foam mixed with textile waste. Energy Procedia 85:559–65.
  • Voronina, N. 1994. Acoustic properties of fibrous materials. Applied Acoustics 42 (2):165–74.
  • Wassilieff, C. 1996. Sound absorption of wood-based materials. Applied Acoustics 48 (4):339–56. doi:10.1016/0003-682X(96)00013-8.
  • Xiang, H. F., D. Wang, H. C. Liua, N. Zhao, and J. Xu. 2013. Investigation on sound absorption properties of kapok fibers. Chinese Journal of Polymer Science 31 (3):521–29. doi:10.1007/s10118-013-1241-8.
  • Yahya, M. N., M. Sambu, H. A. Latif, and T. M. Junaid. 2017. A study of acoustics performance on natural fibre composite. In IOP Conference Series: Materials Science and Engineering 1:012013. doi:10.1088/1757-899X/226/1/012013.
  • Yang, W., and Y. Li. 2012. Sound absorption performance of natural fibers and their composites. Science China Technological Sciences 55 (8):2278–83. doi:10.1007/s11431-012-4943-1.
  • Zaidi, A., A. Mujahid, M. I. Ghazali, M. N. Yahya, and M. Ismail. 2009. Investigation on sound absorption of rice-husk reinforced composite. In Proceedings of MUCEET 2009 Malaysian Technical Universities Conference on Engineering and Technology. Malaysia : Malaysian Technical University Network.
  • Zakriya, M., and D. G. Ramakrishnan. 2017. Jute and hollow conjugated polyester composites for outdoor & indoor insulation applications. Journal of Natural Fibers. doi:10.1080/15440478.2017.1410515.
  • Zulkifli, R., M. M. Nor, M. M. Tahir, A. R. Ismail, and M. Z. Nuawi. 2008. Acoustic properties of multi-layer coir fibres sound absorption panel. Journal of Applied Sciences 8 (20):3709–14.
  • Zulkifli, R., Z. Zulkarnain, and M. J. Nor. 2010. Noise absorption properties of coir fiber with porous layer facing. International Review of Mechanical Engineering 4 (4):405–09.

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