Abstract
Natural and wood fibre plastic composites (WPC) are among the most rapidly growing markets within the plastics industry. They are manufactured by combining either wood or other natural fibers such as flax, hemp, jute or kenaf with polymers. Thermoplastic resins, such as polypropylene, polyethylene or polystyrene, are mixed with other materials (such as wood), and form a composite product. The resulting composite can be easily processed into various shapes and can be recycled. The experiments were made to study the behaviour of the wood flour-polypropylene composite during injection moulding, and to what extent the mechanical properties deteriorate after several processing cycles, i.e. mechanical recycling. Regarding efficiency of energy recovery, the heating value of wood-thermoplastic composite with different contents of wood and thermoplastics was determined as well.
This is a preview of subscription content, log in via an institution to check access.
References
Kandachar, P: Agricultural Fibres for Product Design & Development. In Proceedings of the Workshop on Collaborative Open Source Design of Appropriate Technologies, 2001.
Status and Market Report – TRA Polymer aterials, Cluster3: Polymer Composites, 1999.
Schuh, T.G.: Renewable Materials for Automotive Applications, Daimler-Chrysler AG, Stuttgart, 2000.
Sanadi, A., Caulfield, D. F, Rowell, R. M.: Lignocellulosic/plastic composites, The Fibril Angle, Spring 1998 Newsletter, 8-12.
Kozlowski, R. et al.: Application of fibrous plants with a special reference to composite and paper, Biofiber Industry Advancement Workhop, 2005.
Olesen, P.O., Plackett, D.V.: Perspectives on the performance of natural plant fibres, www.ienica.net/fibresseminar/olesen.pdf
Wolcott, M. P.: Production Methods and Platforms for Wood Plastic Composites. In Non-Wood Substitutes for Solid Wood Products Conference, 2003.
Markarian J.: Material and processing developments drive wood-plastic composites forward, Plastic Additives and Compounding, 24-28, 2003.
Mali, J. et al.: Woodfibre-plastic composites, VTT Technical Research Centre of Finland, 2003.
Rangaprasad, R.: Wood Plastic Composites – an overview, IPI Seminar on Synthetic Wood, 2003.
Rowell, R. et al.: Utilization of Natural Fibers in Plastic Composites: Problems and Opportunities. In Leao, A. L., Carvalho, F. X. i Frollini E. (ed.): Lignocellulosic-Plastics Composites, 23-51, 1997.
Kuzman, K. et al.: Development and Characterisation of Eco-Friendly Thermoplastics E! 2819 FACTORY ECOPLAST. In 3rd International Conference on Manufacturing Engineering, 207-214, 2008.
Clemons, C.: Interfacing wood-plastic composites industries in the U.S., www.jobwerks.com/news/Archives/iwpc.html
Rujnić-Sokele, M., Šercer, M., Barić, G.: Mechanical recycling of injection-molded woodthermoplastic composites, in ANTEC 2006, 278-282, 2006.
Rujnić-Sokele, M.; Šercer, M.; Bujanić, B.: Utjecaj recikliranja na mehanička svojstva drvnoplastomernoga kompozita. Polimeri 25(1-2), 12-19, 2004.
Šercer, M., Rujnić-Sokele, M., Bujanić, B.: Recycling and recovery of wood-thermoplastic composites. In 6th Global Wood and Natural Fibre Composites Symposium, P19-1 – P19-6, 2006.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Šercer, M., Raos, P. & Rujnić-Sokele, M. Processing of wood-thermoplastic composites. Int J Mater Form 2 (Suppl 1), 721 (2009). https://doi.org/10.1007/s12289-009-0654-y
Published:
DOI: https://doi.org/10.1007/s12289-009-0654-y