 |
 |
 |
 |
 |
 |
Sains Malaysiana 39(1)(2010): 87–92 Mechanical Properties of Short Random Oil Palm Fibre Reinforced Epoxy Composites (Ciri-ciri Mekanikal Gentian Pendek Secara Rawak Kelapa Sawit Bertetulang Komposit Epoksi) Mohd Zuhri Mohamed Yusoff*, Mohd Sapuan Salit, Napsiah Ismail & Riza Wirawan Department of Mechanical and Manufacturing Engineering Universiti Putra Malaysia, 43400 Serdang, Selangor D.E., Malaysia Received: 26 December 2008 / Accepted: 6 July 2009 ABSTRACT This paper presents the study of mechanical properties of short random oil palm fibre reinforced epoxy (OPF/epoxy) composites. Empty fruit bunch (EFB) was selected as the fibre and epoxy as the matrix. Composite plate with four different volume fractions of oil palm fibre was fabricated, (5 vol%, 10 vol%, 15 vol% and 20 vol%). The fabrication was made by hand-lay up techniques. The tensile and flexural properties showed a decreasing trend as the fibre loading was increased. The highest tensile properties was obtained for the composite with fibre loading of 5 vol% and there were no significant effect for addition of more than 5 vol% to the flexural properties. Interaction between fibre and matrix was observed from the scanning electron microscope (SEM) micrograph. Keywords: Empty fruit bunch; epoxy; flexural properties; tensile properties ABSTRAK Kertas ini membentangkan kajian tentang ciri mekanikal gentian pendek secara rawak kelapa sawit bertetulang komposit epoksi (OPF/epoxy). Tandan buah kosong (EFB) dipilih sebagai gentian dan epoksi sebagai matriks. Plat komposit dengan empat perbezaan pecahan isipadu gentian kelapa sawit telah difabrikasi iaitu 5 isi padu %, 10 isi padu %, 15 isi padu % dan 20 isipadu %. Fabrikasi telah dibuat dengan menggunakan teknik bengkalai dengan tangan. Ciri-ciri kekuatan dan kelenturan menunjukkan trend penurunan apabila kandungan gentian bertambah. Ciri-ciri kekuatan tertinggi terdapat pada komposit dengan kandungan gentian sebanyak 5 isi padu % manakala penambahan lebih daripada 5 isipadu % pada ciri-ciri kelenturan tidak membawa sebarang kesan yang signifikan. Hubungan antara gentian dan matriks di perhatikan melalui mikrograf SEM. Kata kunci: Ciri-ciri kelenturan; ciri-ciri ketegangan; epoksi; tandan buah kosong REFERENCES Arib, R.M.N., Sapuan, S.M., Ahmad, M.M.H.M., Paridah, M.T. & Khairul Zaman, H.M.D. 2006. Mechanical properties of pineapple leaf fibre reinforced polypropylene composites. Materials & Design 27: 391-396. Azis, S.H. & Ansell, M.P. 2004. The effect of alkalization and fibre alignment on the mechanical and thermal properties of kenaf and hemp bast fibre composite: Part 1- polyester resin matrix. Journal of Composite Science and Technology 64: 1219-1230. Baiardo, M., Zini, E., & Scandola, M. 2004. Flax fibre–polyester composites. Composites, Part A: Applied Science and Manufacturing 35: 703-710. Doan, T.T.L, Gao, S.L. & MŠder, E., 2006. Jute/polypropylene composites I. Effect of matrix modification. Composites Science and Technology 66: 952-963. Joseph, K., Filho, R.D.T., James, B., Sabu, T. & Laura, H.D.C. 1999. A review on sisal fiber reinforced polymer composites. Revista Brasileira de Engenharia Agr'cola e Ambiental 3(3): 367-379. Kalam, A., Sahar, B.B., Khalis, Y.A. & Wong, S.V. 2005. Fatigue behaviour of oil palm fruit bunch fibre/epoxy and carbon fibre/epoxy composites. Composite Structure. 71: 34-44. Khairiah, B. & Khairul, A.M.A. 2006. Biocomposites from oil palm resources. Journal of Oil Palm Research. (Special Issue-April): 103-113. Khalil, H.P.S.A., Issam, A.M., Ahmad, S.M.T., Suriani, R. & Awang, A.Y. 2007. Conventional agro – composites from chemically modified fibres. Industrial Crops and Products 26: 315-323. Lee, S.M., Cho, D., Park, W.H., Lee, S.G., Han, S.O. & Drzal., L.T. 2005. Novel silk/poly(butylene succinate) biocomposites: the effect of short fibre content on their mechanical and thermal properties. Composites Science and Technology 65: 647-657. Li, Y., Mai, Y.W. & Ye, L., 2000. Sisal fibre and its composites: a review of recent developments. Composites Science and Technology 60: 2037-2055. Myrtha, K., Holia, O., Dawam, A.A.H. & Anung, S. 2008. Effect of oil palm empty fruit bunch fibre on the physical and mechanical properties of fibre glass reinforced polyester resin. Journal of Biological Sciences 8(1): 101-106. Ridzuan, R., Shaler, S. & Jamaludin, M.A. 2002. Properties of medium density fibreboard from oil palm empty fruit bunch fibre. Journal of Oil Palm Research 14(2): 34-40. Rozman, H.D., Ahmadhilmi, K.R. & Abubakar, A. 2004. Polyurethane (PU) – oil palm empty fruit bunch (EFB) composites: the effect of EFBG reinforcement in mat form and isocyanate treatment on the mechanical properties. Polymer Testing 23: 559-565. Rozman, H.D., Saad, M.J. & Mohd Ishak, Z.A. 2003. Flexural and impact properties of oil palm empty fruit bunch (EFB)–polypropylene composites - the effect of maleic anhydride chemical modification of EFB. Journal of Polymer Testing 22: 335-341. Rozman, H.D., Tay, G.S., Kumar, R.N., Abusamah, A., Ismail, H. & Mohd Ishak, Z.A.M. 2001. Polypropylene – oil palm empty fruit bunch – glass fibre hybrid composites: a preliminary study on the flexural and tensile properties. European Polymer Journal 37: 1283-1291. Sapuan, S.M., Leenie, A., Harimi, M. & Beng, Y.K. 2006. Mechanical properties of woven banana fibre reinforced epoxy composites. Materials and Design 27: 689-693. Sastra, H.Y., Siregar, J.P., Sapuan, S.M., Leman, Z. & Hamdan, M.M. 2005. Flexural properties of Arenga pinnata fibre reinforced epoxy composites. American Journal of Applied Sciences. (Special Issue): 21-24. Tan, I.A.W., Hameed, B.H. & Ahmad, A.L. 2007. Equilibrium and kinetic studies on basic dye adsorption by oil palm fibre activated carbon. Chemical Engineering Journal 127: 111-119. Wollerdorfer, M. & Bader, H. 1998. Influence of natural fibres on the mechanical properties of biodegradable polymers. Industrial Crops and Products 8: 105-112. *Corresponding author; email: zuhri.yusoff@gmail.com
|
|||
|
