Iranian Journal of Wood and Paper Science Research

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Comparing four lignocellulosic materials in the properties of wood plastics/ nanoclay composites

Document Type : Research Paper

Author

Associate Professor, Wood and Paper Science Dept. Research Institute of Forests and Rangelands

Abstract

To improve the mechanical properties of wood plastics composites, four lignocellulosic materials (bagasse, rice straw, wheat straw and poplar wood powder) was used as the reinforcing material. The amount of nano-clay at different levels (0, 3 and 6%) were examined on the performance of wood plastic composites. Tensile, flexural and impact properties were measured in accordance with ASTM standard test methods. Scanning electron microscope imaging (SEM) and transmission electron microscope imaging (TEM) were performed to interpret the results. The applocation of bagasse and poplar wood powder compared with wheat and rice straws increased the strength of wood plastics composites. Using 3% nanoclay particles increased the strength properties to the maximum values. Imaging the morphology of nanoclay by X-ray diffraction and electron microscopy showed the distribution of nanoclay particles in polymer structure. With increasing the amount of nanoclay to 3%, the distance between layers increased. 

Keywords

References
-Fu, J., and Naguib, H.E.. 2006. Effect of nanoclay on the mechanical properties of PMMA/clay nanocomposites foams. Journal of Cellular Plastic. 45. 325-342.
-Han, G., Lei, Y., Wu, Q., Kojima, Y., Suzuki, S. 2008. Bamboo–Fiber Filled High Density Polyethylene Composites: Effect of Coupling Treatment and Nanoclay. J Polym Environ. 16. 123–130.
-Hristove, V.N., Vasileva, S.T., Krumova, M. and Michler, R. 2004. Deformation mechanisms and mechanical properties of modified polypropylene/wood fiber composites. Journal of Polymer Composites. 25 (5). 1015-1022.
-Lee, S.Y., I.A. Kang, G.H. Doh, W.J. Kim, J.S. Kim, H.G. Yoon, Q. Wu. 2008. Thermal, mechanical and morphological properties of polypropylene/clay/wood flour nanocomposites. Express Polymer Letters. 2 (2). 78–87.
-Mustapha, M., Hassan, A., and Rahmat, A. 2005. Perliminary study on the mechanical properties of polypropylene rice husk composites. Symposium polimer kebangsaan ke-v hotel residwnce. Aug 2005., 23-24 .
-Nourbakhsh, A., Farhani Baghlani F., Ashori, A. 2011. Nano-Sio2 filled rice husk/polypropylene composites: Physico-mechanical properties. Industrial crops and products. 22. 183-187.
-Ray, S., Okamoto, M.. 2003. Polymer/layered silicate nanocomposites: a review from preparation to processing. Progress in Polymer Science. 28. 1359-1641.
- Wang, L., K, Wang., L, Chen., Y, Zhang., C, He., 2005. Preparation, morphology and thermal/mechanical properties of epoxy/ nano clay composite.
-Yeh Shu-Kai, Gupta Rakesh K.. 2010. Nano clay-Reinforced, Polypropylene-Based Wood–Plastic Composites. Polymer Engineering and Science. DOI 10.1002/pen.21729.
-Yuan. Q., and Misra, R.D.K,. 2007. High strength-toughness combination of melt intercalated nanoclay-reinforced thermoplastic olefins.  Material Science Engineering A, 277-287.
-Zhao, Y., Wang, K., Zhu, F., Xue, P. and Jia, M. 2006. Properties of poly (vinyl chloride)/wood flour/montmorillonite composites: Effects of coupling agents and layered silicate. Journal of Polymer Degradation and Stability, 91, 2874-2883.
-Zhou,Y., Rangari, V., Mahfuz, H., Jeelani, Sh., Mallick, P.K. 2005. Experimental study on thermal and mechanical behavior of polypropylene, talc/polypropylene and polypropylene/clay nanocomposites. Materials Science and Engineering A. 402. 109–117.
Iranian Journal of Wood and Paper Science Research
Volume 27, Issue 2 - Serial Number 39
June 2012
Pages 235-255
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History
  • Receive Date: 11 September 2018
  • Accept Date: 11 September 2018
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