Abstract
The aim of this study is to develop degradable starch-based packaging film with enhanced mechanical properties. A series of low-density polyethylene (LDPE)/tapioca starch compounds with various tapioca starch contents were prepared by twin-screw extrusion with the addition of maleic anhydride-grafted polyethylene as compatibilizer. Palm cooking oil was used as processing aid to ease the blown film process; thus, degradable film can be processed via conventional blown film machine. Studies on their mechanical properties and biodegradation were carried out by tensile test and exposure to fungi environment, respectively. The presence of high starch contents had an adverse effect on the tensile properties of LDPE/tapioca starch blends. However, the addition of compatibilizer to the blends improved the interfacial adhesion between the two materials and hence improved the tensile properties of the films. High content of starch was also found to increase the rate of biodegradability of LDPE/tapioca starch films. It can be proved by exposure of the film to fungi environment. A growth of microbes colony can be seen on the surface of LDPE/tapioca starch film indicates that the granular starch present on the surface of the polymer film is attacked by microorganisms, until most of it is assimilated as a carbon source.
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References
Akaranta, O., & Oku, G. E. (1999). Erratum to: Some properties of cassava mesocarp carbohydrates-low density polyethylene blends. Carbohydrate Polymers, 34, 403–405.
Arvanitoyannis, I., Biliaderis, C. G., Ogawa, H., & Kawasaki, N. (1998). Biodegradable films made from low density polyethylene (LDPE), rice starch and potato starch for food packaging application: Part I. Carbohydrate Polymer, 36, 89–104.
Baldev, R., Udaya, S. R., & Siddaramaiah, N. H. (2004). Low density polyethylene/starch blend films for food packaging application. Advance in Polymer Technology, 42, 32–45.
Chandra, R., & Rustgi, R. (1998). Biodegradable polymers. Progress in Polymer Science, 23, 1273–1335.
Danjaji, I. D., Nawang, R., Ishiaku, U. S., Ismail, S., & Mohd ishak, Z. A. (2002). Degradation studies and moisture uptake of sago-starch filled linear low-density polyethylene composites. Polymer Test, 21, 75–81.
Erlandsson, B., Karlsson, S., & Albertsson, A. C. (1997). The mode of action of corn starch and a prooxidant system in LDPE: Influence of thermooxidation and UV irradiation on the molecular weight changes. Polymer Degradation and Stability, 55, 237–245.
Khabbaz, F., Albertsson, A. C., & Karlsson, S. (1998). Trapping of volatile low molecular weight photoproducts in inert and enhanced degradable LDPE. Polymer Degradation and Stability, 61, 329–342.
Liu, W., Wang, Y. J., & Sun, Z. (2003). Effects of polyethylene-grafted-maleic anhydride (PE-g-MA) on thermal properties, morphology and tensile properties of low density polyethylene (LDPE) and corn starch blends. Journal of Applied Polymer Science, 88, 2904–2911.
Manzur, A., Limon-Gonzalez, M., & Favela-Torres, E. (2004). Biodegradation of physicochemically treated LDPE by a consortium of filamentous fungi. Journal of Applied Polymer Science, 92, 265–271.
Shah, P. B., Bandopadhyay, S., & Bellare, J. R. (1995). Environmentally degradable starch filled low density polyethylene. Polymer Degradation and Stability, 47, 165–173.
Tharanathan, R. N. (2003). Biodegradable films and composite coatings: past, present and future. Trends in Food Science and Technology, 14, 71–78.
Theubaud, S., Aburto, J., Alric, I., Borredon, E., Bikiaris, D., Prinos, J., et al. (1997). Properties of fatty acid estera of starch and their blends with LDPE. Journal of Applied Polymer Science, 17, 705–721.
Zheng, Y., & Yanful, E. K. (2005). A review of plastic waste biodegradation. Critical Review in Biotechnology, 25, 243–250.
Acknowledgments
The author would like to thank the government of Malaysia through Ministry of Higher Education (MOHE) for furnishing the grant to expedite the research work (Vot: Q.J130000.2544.03H26). Last, but not least the authors thank Universiti Teknologi Malaysia and research colleagues for all the assistance granted throughout the research period.
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Ali, R.R., Rahman, W.A.W.A., Ibrahim, N.B., Kasmani, R.M. (2013). Starch-Based Biofilms for Green Packaging. In: Pogaku, R., Bono, A., Chu, C. (eds) Developments in Sustainable Chemical and Bioprocess Technology. Springer, Boston, MA. https://doi.org/10.1007/978-1-4614-6208-8_41
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DOI: https://doi.org/10.1007/978-1-4614-6208-8_41
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