Experimental Study of Banana Fiber Reinforced Green Composite
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In today’s developing era the concern for the prevention of non-biodegradable resources has attracted researchers to develop biodegradable materials based on green principles. The fibers from agriculture waste give good advantages over conventional synthetic fibers such as low cost and density, non-toxicity and waste disposal problems. In this work banana fibers have been used as the reinforcing agent with corn starch and glycerol as the matrix to increase the effectiveness of banana fibers. The composites have been fabricated by injection moulding method followed by high speed mixing and twin screw extrusion. In this experiment mechanical and physical properties have been evaluated by changing the proportion of banana fiber and matrix material. The tensile, flexural, impact and hardness tests have been performed on newly fabricated green composites. From the results, it has been observed that the composites having greater fiber content show evidence of superior properties.
Keywords
- R Badrinath, T. Senthilvelan Comparative Investigation on Mechanical Properties of Banana and Sisal Reinforced Polymer based Composites. Procedia Mater Sci [Internet]. 2014;5:2263–72.
- R Ghosh, A Ramakrishna, G Reena, A Ravindra, A Verma Water Absorption Kinetics and Mechanical Properties of Ultrasonic Treated Banana Fiber Reinforced-vinyl Ester Composites. Procedia Mater Sci. 2014;5:311–5.
- BC. Mitra environment Friendly composite materials: Biocomposites and Green composites. Def Sci J. 2014;64(3):244–61.
- C Merlini, V Soldi, GMO. Barra Influence of fiber surface treatment and length on physico-chemical properties of short random banana fiber-reinforced castor oil polyurethane composites. Polym Test. Elsevier; 2011;30(8):833–40.
- Y-F Shih, C-C. Huang Polylactic acid (PLA)/ banana fiber (BF) biodegradable green composites. J Polym Res. Springer; 2011;18(6):2335–40.
- M. Ramesh STUDIES ON MECHANICAL AND MACHINING CHARACTERISTICS OF HYBRID NATURAL FIBER COMPOSITES A Thesis submitted to the Jawaharlal Nehru Technological University Anantapur DOCTOR OF PHILOSOPHY MECHANICAL ENGINEERING by Under the Guidance of. 2014;(900).
- M Ramesh, TSA Atreya, US Aswin, H Eashwar, C. Deepa Processing and mechanical property evaluation of banana fiber reinforced polymer composites. Procedia Eng. Elsevier; 2014;97:563– 72.
- K Sathasivam, MRHM. Haris Thermal properties of modified banana trunk fibers. J Therm Anal Calorim. 2012;108(1):9–17.
- R Bhoopathi, M Ramesh, C. Deepa Fabrication and property evaluation of banana-hemp-glass fiber reinforced composites. Procedia Eng. Elsevier; 2014;97:2032–41.
- M Idicula, NR Neelakantan, Z Oommen, K Joseph, Thomas S. A study of the mechanical properties of randomly oriented short banana and sisal hybrid fiber reinforced polyester composites. J Appl Polym Sci. 2005;96(5):1699–709.
- LA Pothan, S Thomas, NR. Neelakantan Short banana fiber reinforced polyester composites: mechanical, failure and aging characteristics. J Reinf Plast Compos. SAGE Publications; 1997;16(8):744–65.
- LA Pothan, J George, S. Thomas Effect of ber surface treatments on the ber – matrix interaction in banana ber reinforced polyester composites. Compos Interfaces. 2002;9(4):335–53.
- R Badrinath, T. Senthilvelan Comparative investigation on mechanical properties of banana and sisal reinforced polymer based composites. Procedia Mater Sci. Elsevier; 2014;5:2263–72.
- VK Singh, PC Gope, S Chauhan, DS Bisht. Mechanical behavior of banana fiber based hybrid bio composites. J Mater Env Sci. 2012;3(1):185–94.
- HU Zaman, MDH. Beg Banana fiber strands– reinforced polymer matrix composites. Compos Interfaces [Internet]. 2016;23(4):281–95.
- R Kumar, V Choudhary, S Mishra, I. Varma Banana fiber-reinforced biodegradable soy protein composites. Front Chem China. 2008;3(3):243–50.
- A Kaushik, M Singh, G. Verma Green nanocomposites based on thermoplastic starch and steam exploded cellulose nanofibrils from wheat straw. Carbohydr Polym. 2010;82(2):337–45.
- J Liu, C Jia, He C. Rice Straw and Cornstarch Biodegradable Composites. AASRI Procedia [Internet]. Elsevier B.V.; 2012;3(1):83–8.
- AJF Carvalho, AAS Curvelo, JAM. Agnelli Wood Pulp Reinforced Thermoplastic Starch Composites. Int J Polym Mater. 2000;0:1–16.
- LR Darwish, M Farag, MT El-Wakad, M. Emara The use of starch matrix-banana fiber composites for biodegradable maxillofacial bone plates. Int Conf Biol Med Physics, Med Chem Biochem Biomed Eng. 2013;70–6.
- LR Darwish, M Farag, MT El-wakad, M Emara, B Engineering, M Engineering et al. Improving the Properties of Cornstarch Based Green Composites Reinforced With Banana Fibers by Incorporating Polycaprolactone for Maxillofacial Bone Plates Fabrication the American University in. :193–201.
- Á Kmetty, J Karger-Kocsis, T. Czigány Production and properties of micro-cellulose reinforced thermoplastic starch. IOP Conf Ser Mater Sci Eng [Internet]. 2015;74(February):12008.
- J Gironès, JP López, P Mutjé, AJF Carvalho, AAS Curvelo, F. Vilaseca Natural fiber-reinforced thermoplastic starch composites obtained by melt processing. Compos Sci Technol. 2012;72(7):858– 63.
- Da Róz AL, AJF Carvalho, A Gandini, AAS Curvelo. The effect of plasticizers on thermoplastic starch compositions obtained by melt processing. Carbohydr Polym. 2006;63(3):417–24.
- E de M Teixeira, D Pasquini, AAS Curvelo, E Corradini, MN Belgacem, A. Dufresne Cassava bagasse cellulose nanofibrils reinforced thermoplastic cassava starch. Carbohydr Polym. Elsevier; 2009;78(3):422–31.
- JL Guimarães, F Wypych, CK Saul, LP Ramos, KG. Satyanarayana Studies of the processing and characterization of corn starch and its composites with banana and sugarcane fibers from Brazil. Carbohydr Polym. Elsevier; 2010;80(1):130–8.
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