Open Access
MATEC Web of Conferences
Volume 150, 2018
Malaysia Technical Universities Conference on Engineering and Technology (MUCET 2017)
Article Number 03003
Number of page(s) 5
Section Civil Engineering
Published online 23 February 2018
  1. Fouladi, M. H., Nassir, M. H., Ghassem, M., Shamel, M., Peng, S.Y., Wen, S. Y., Xin, P. Z. & Nor, M. J. M. (2013). Utilizing Malaysian Natural Fibers as Sound Absorber, Modeling and Measurement Methods for Acoustic Waves and for Acoustic Microdevices, ISBN: 978-953-51-1189-4 [Google Scholar]
  2. Arenas, J.P. and Crocker, M.J. (2010) Recent Trends in Porous Sound-Absorbing Materials. Sound & Vibration, 44, 12-17 [Google Scholar]
  3. Asdrubali, F. (2007). Green and sustainable materials for noise control in buildings. 19th International Congress on Acoustic Madrid, (September 2007) [Google Scholar]
  4. Berardi, U., Iannace, G., & Di, M. (2016). Challenges and Solutions in Acoustical Measurements and Design : Paper ICA2016-238 Characterization of sheep wool panels for room acoustic applications Characterization of sheep wool panels for room acoustic applications [Google Scholar]
  5. Putra, A., Abdullah, Y., Efendy, H., Farid, W.M., Ayob, M.R., & Py, M. S. (2013). Utilizing Sugarcane Wasted Fibers As A Sustainable Acoustic Absorber, Procedia Engineering, 53, 632 – 638 [Google Scholar]
  6. Nor, M. J. M., Ayub, M., Zulkifli, R., Amin, N. & Fouladi, M. H. (2010). Effect of Different Factors on the Acoustic Absorption of Coir Fiber, Journal of Applied Sciences, 10(22), 2887-2892 [CrossRef] [Google Scholar]
  7. Masrol, S. R., Rosdin, M. K. R. & Ibrahim, M. N. (2013). Sound Absorption Characteristics of Palm Oil Male Flower Spikes Fiber Reinforced Composite. International Confrence on Mechanical Engineering Research (ICMER2013), 1-3 [Google Scholar]
  8. Latif, H. A., Yahya, M. N., Zaman, I., Sambu, M., & Ghazali, M. I. (2016). The Influence of Physical Properties and Different Percentage of The Oil Palm Mesocarp Natural Fiber, 11(4), 2462–2466 [Google Scholar]
  9. Mahzan, S., Zaidi, A. M. A., Yahya, M. N., & Ismail, M. (2009). Investigation on Sound Absorption of Rice-Husk Reinforced Composite. In: Proceedings of MUCEET2009 Malaysian Technical Universities Conference on Engineering and Technology [Google Scholar]
  10. Ismail, L., Ghazali, M. I., Mahzan, S., Mujahid, A., & Zaidi, A. (2010). Sound Absorption of Arenga Pinnata Natural Fiber, 4(7), 804–806 [Google Scholar]
  11. Samsudin, E. M., Ismail, L. H., & Kadir, A. A. (2016). Comparison On Acoustic Performance Between Dust And Coir Form Empty Fruit Bunches (Efb) As Sound Absorption Material, Jurnal Teknologi, 78 (5), 191-196 [CrossRef] [Google Scholar]
  12. Piarpuzán, D., Quintero, J. A., & Cardona, C. A. (2011). Empty fruit bunches from oil palm as a potential raw material for fuel ethanol production. Biomass and Bioenergy. [Google Scholar]
  13. Abdullah, N., & Sulaiman, F. (2013). The Oil Palm Wastes in Malaysia. Biomass Now – Sustainable Growth and Use, 75–100 [Google Scholar]
  14. Kadir, A. A., Azian, N., Zahari, M., & Mard, N. A. (2013). Utilization of Palm Oil Waste into Fired Clay Brick, 7, 3826–3834 [Google Scholar]
  15. Izani, M. A. N., Paridah, M. T., Astimar. A. A., Nor, M. M. Y. & Anwar, U. M. K. (2012). Mechanical and dimensional stability of medium density fibreboard produced from treated oil empty fruit bunch, Journal of Applied Science, 12(6), 561-567 [CrossRef] [Google Scholar]
  16. Karlinasari, L., Hermawan, D., Maddu, A., Martianto, B., Lucky, I. K., Nugroho, N. & Hadi, Y. S. (2012). Acoustical Properties of Particleboards Made from Betung Bamboo (Dendrocalamus asper) As Building Construction Material, 7(4), 5700–5709 [Google Scholar]
  17. Seddeq, H. S., Aly, N. M., A, A. M., & Elshakanekery, M. (2013). Investigation on sound absorption properties for recycled fibrous materials. Journal of Industrial Textiles, 43(1), 56–73. doi:10.1177/1528083712446956 [CrossRef] [Google Scholar]
  18. British Standards Institution (2001). Acoustics — Determination of sound absorption coefficient and impedance impedance tubes—Part 2:Transfer-function method. United Kingdom: BS EN ISO 10534-2:2001 Incorporating Amendment No. 1 to BS ISO 10534-2:1998 (renumbers the BS ISO as BS EN ISO 10534-2:2001) [Google Scholar]
  19. Lechner, N. (2012). Plumbing, Electricity, Acoustics Sustainable Design Methods for Architecture. United States of America: John wiley & Sons, Inc [Google Scholar]
  20. Jayamani, E., Hamdan, S., Rahman, M., Soon, K., and Bakri, M. (2014). Processing and Characterization of Epoxy/Luffa Composites: Investigation on Chemical Treatment of Fibers on Mechanical and Acoustical Properties. BioResources, 9(3), 5542-5556 [CrossRef] [Google Scholar]
  21. Bratu, M., Dumitrescu, O., Vasile, O., Cristea, A. C., & Muntean, M. (2014). Research On The Sound-Absorbing Properties Of New Composite Materials With Some Wastes, Romania Journal of Material, 44(2), 160–168. [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.