Polypropylene/wood flour composites with different nanoclay and maleic anhydride grafted polypropylene (PP-g-MA) contents were fabricated by melt compounding and then by injection molding. The mechanical properties, such as flexural modulus, tensile modulus, elongation at break, and impact strength, were evaluated. Results indicated that the flexural modulus, tensile modulus, and elongation at break increases with increase of nanoclay up to 3 phc at the same concentration of PP-g-MA, and then decreases. However, the impact strength of the composites decreases with increased nanoclay loading. Also, the effect of compatibilzer was positive in terms of enhancing the mechanical properties of the composites. The morphology of the nanocomposites has been examined by using X-ray diffraction and transmission electron microscopy. Morphological findings revealed that intercalation form, the sample with 3 phc concentration of clay, which implies the formation of the intercalation morphology and better dispersion than 6 phc, and the d-spacing of clay layers in the composite were improved in the presence of compatibilizer.
Woodhams, R.T. , Thomas, G. and Rodgers, D.K. (1984). Wood Fibres as Reinforcing Fillers for Polyoefins, Journal of Polymer Engineering Science , 24: 1166-1171.
2.
Bledzki, A.K. and Gassan, J. (1999). Composites Reinforced with Cellulose Based Fibers, Journal of Polymer Science, 24: 221-274.
3.
Leao, A.L., Carvalho, F.X. and Frollini, E. ( 1997). Utilization of Natural Fibers in Plastic Composites: Problems and Opportunities in Lignocellulosic Composites, University of Rio de Janeiro.
4.
Bledzki, A.K. and Faruk, O. (2005). Effects of the Chemical Foaming Agents, Injection Parameters, and Melt-flow Index on the Microstructure and Mechanical Properties of Microcellular Injection Molded Wood Fiber/Polypropylene Composites, Journal of Applied Polymer Science, 97: 1090-1096.
5.
Park, C.B. and Sun, A.H. ( 2005) Influence of Foaming Agents on Properties of Wood Flour-polypropylene Composites, Journal of Ploymer Engineering Science, 38: 212-219.
6.
Kokta, B.V., Beland, P. and Maldas, D. ( 1990). Improving Adhesion of Wood Fiber with Polystyce by Chemical Treatment of Fiber with Coupling Agent and Influence on Mechanical Properties , Composites, 3: 529-539.
7.
Raj, R.G. and Kokta, B.V. (1989). Effect of Chemical Treatment of Fiber Composites, Journal of Adhesive Science Technology, 3: 55-64.
8.
Maldas, D. ( 1993). Performance of Hybrid Reinforcements in PVC Composite: Use of Surface Modified Mica and Different Cellulose Materials as Reinforcement . Journal of Vinyl Technology, 15: 38-44.
9.
Rozman, H.D. , Tay, G.S., Kumar, R.N., Abusamah, A., Ismail, H. and Ishak, Z.A. (2001). Polypropylene Oil Palm Empty Fruit Bunch-Glass Fiber Hybrid Composites: A Preliminary Study on the Flexural and Tensile Properties, European Polymer Journal , 37: 1283-1291.
10.
Thwe, M. and Liao, K. ( 2002). Effects of Environmental Aging on the Mechanical Properties of Bamboo- Glass Fiber Reinforced Polymer Matrix Hybrid Composites, Journal of Composite, 33: 43-52.
11.
Sreekala, M.S. , George, J., Kumaran, M.G. and Thomas, S. (2002). The Mechanical Performance of Hybrid Phenol-formaldehyde Based Composites Reinforced with Glass and Oil Palm Fibers, Journal of Composite Science Technology, 62: 339-353.
12.
Mishra, S., Mohanty, A.K., Drzal, L.T., Misra, M., Parija, S., Nayak, S.K. et al. (2003). Studies on Mechanical Performance of Biofiber/Glass Reinforced Polyester Hybrid Composites, Journal of Composie Science Technology, 63: 1377-1385.
13.
Tjong, S.C. (2006). Structural and Mechanical Properties of Polymer Nanocomposites: A Review, Journal of Material Science and Engineering, 53: 73-197.
14.
Utracki, L.A. , Sepehr, M. and Boccaleri, E. (2007). Synthetic Layered Nanoparticles for Polymeric Nanocomposites (PNCs): A Review, Journal of Polymer Advanced Technology, 18: 1-37.
15.
Alexandre, M. and Dubois, P. (2000). Polymer-layered Silicate Nanocomposites: Preperation, Properties and use of a New Class of Materials: A Review, Journal of Material Science and Engineering, 28: 1-63.
16.
Viswanathan, V., Laha, T., Balani, K., Agarwal, A. and Seal, S. (2006). Challenges and Advances in Nanocomposite Processing Techniques: A Review, Journal of Material Science and Engineering, 54: 121-285.
17.
Ray, S. and Okamoto, M. ( 2003). Polymer/Layered Silicate Nanocomposites: A Review from Preparation to Processing, Journal of Program Polymer Science , 28: 1539-1641.
18.
Asif, A., Roa, L.V. and Ninan, K.N. ( 2007). Hydroxyl Terminated Poly(ether ether ketone) with Pendant Methyl Group-toughened Epoxy Ternary Nanocomposites: Preparation, Morphology and Thermomechanical Properties, Journal of Applied Polymer Science , 103: 3793-3799.
19.
Boukerrou, A. , Duchet, J., Fellahi, S., Kaci, M. and Sautereau, H. (2007). Morphology and Mechanical and Viscoelastic Properties of Rubbery Epoxy/Organoclay Montmorillonite Nanocomposites , Journal of Applied Polymer Science, 103: 3547-3552.
20.
Chen, H., Wang, M., Lin, Y., Chan, C.M. and Wu, J. ( 2007). Morphological and Mechanical Property of Binary Polypropylene Nanocomposites with Nanoclay Particles, Journal of Applied Polymer Science, 103: 4451-4458.
21.
Li, T.C., Ma, J., Wang, M., Chauhari, W., Liu, T. and Huang, W. ( 2007). Effect of Clay Addition on the Morphology and Thermal Behavior of Polyamide 6, Journal of Applied Polymer Science , 103: 1191-1199.
22.
Mohanty, S. and Nayak, S.K. ( 2007). Effect of Clay Exfoliation and Organic Modification on Morphological, Dynamic Mechanical, and Thermal Behavior of Melt Compounded Polyamide-6 Nanocomposites, Journal of Polymer Composite, 28: 153-162.
23.
Samal, S.K., Nayak, S. and Mohanty, S. ( 2008). Polypropylene Nanocomposites: Effect of Organo-modified Layered Silicates on Mechanical, Thermal and Morphological Performance, Journal of Thermoplastic Composite Materials, 8: 243-263.
24.
Wu, Q., Lei, Y., Clemons, C.M., Yao, F., Xu, Y. and Lian, K. ( 2007). Properties of HDPE/Clay/Wood Nanocomposites, Journal of Plastic Technology, 27: 108-115.
25.
Wang, K.H., Choi, M.H., Koo, C.M., Choi, Y.S. and Chung, I.J. ( 2001). Synthesis and Characterization of Maleated Polyethylene/Clay Nanocomposites, Polymer, 42: 9819-9826.
26.
Hetzer, M. and Kee, D. ( 2008). Wood/Polymer/Nanoclay Composites, Environmentally Friendly Sustainable Technology: A Review, Journal of Chemical Engineering , 16: 1016-1027.
27.
Koo, C.M. , Ham, H.T., Kim, S.O., Wang, K.H. and Chung, I. (2002). The Effect of Crystallization on the Structure and Morphology of Polypropylene/Clay Nanocomposites, Journal of Macromolecules, 35: 5116-5130.
28.
Lei, Y. , Wu, Q., Clemons, C.M., Yao, F. and Xu, Y. (2007). Influence of Nanoclay on Properties of HDPE/ Wood Composites, Journal of Applied Polymer Science, 18: 1425-1433.
29.
Gauthier, T.C. , Joly, A.C., Coupas, H. and Escoubes, M. (1998). Interfaces in Polyolefin-cellulose Fiber Composites: Chemical Coupling, Morphology, Correlation with Adhesion and Aging in Moisture, Polymer Composites, 19: 287-300.
30.
George, J., Sreekala, M.S. and Thomas, S. ( 2001). A Review on Interface Modification and Characterization of Natural Fiber Reinforced Plastic Composites, Journal of Polymer Engineering Science, 41: 1471-1485.
31.
Oksman, K. and Lindberg, H. ( 1998). Influence of Thermoplastic Elastomers on Adhesion in Polyethylene-wood Flour Composites, Journal of Applied Polymer Science, 11: 1845-1855.
32.
Raj, R.G. , Kokta, B., Gruleau, G. and Daneault, C. (1990). The Influence of Coupling Agents on Mechanical Properties of Composites Containing Cellulose Fillers , Journal of Polymer Plastic Technology Engineering, 29: 339-353.
33.
Han, G. , Lei, Y., Wu, Q., Kojima, Y. and Suzuki, S. (2008). Bamboo-Fiber Filled High Density Polyethylene Composites: Effect of Coupling Treatment and Nanoclay , Journal of Polymer Enviroment, 21: 1567-1582.
34.
Zhao, Y., Wang, K., Zhu, F., Xue, P. and Jia, M. ( 2006). Properties of Poly(vinylchloride)/Woodflour/ Montmorillonite Composites: Effects of Coupling Agents and Layered Silicate, Journal of Polymer Degardation and Stability, 91: 2874-2883.
35.
Guduri, B.R. and Luyt, A.S. (2007). Comparison of the Influence of Different Compatabillizers on the Structures and Properties of Ethylene Vinyl Acetate Copolymer/Modified Clay Nanocomposites, Journal of Applied Polymer Science, 103: 1268-1274.
36.
Yuan, Q. and Misra, R.D.K. ( 2006). Impact Fracture Behavior of Clay-reinforced Polypropylene Nanocomposites, Journal of Applied Polymer Science, 47: 4421-4433.
