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Abstrakty
Nowadays, natural fiber reinforced polymer composites are widely used because of their advantageous properties like minimum density,maximum specific strength, low cost and easy availability. Manufacturing of natural fiber composite is easy as compared to the conventional methods. In the present scenario, due to an increasing interest in environmental consciousness with greenhouse effect, various industries have initiated the use of eco-friendly materials and are replacing hazardous materials with such eco-friendly materials. The present work aims to determine the tensile strength of okra and jute fibers reinforced in Epoxy LY-556 and XIN-100IN Resins. Okra fibers are developed from the stem of the plant of the Malvaceae family. Their use as reinforcement in polymer composites requires the basic knowledge of their mechanical properties. Jute fibers are developed fromthe best jute plants. The conclusions are based on their mechanical properties and behavior.
Czasopismo
Rocznik
Tom
Strony
218--227
Opis fizyczny
Bibliogr. 25 poz., fot. kolor., wykr.
Twórcy
autor
- Andhra University, Department of Mechanical Engineering, India
autor
- Andhra University, Department of Mechanical Engineering, India
autor
- Andhra University, Department of Mechanical Engineering, India
Bibliografia
- [1] Srinivas, K. A., Naidu, A. L. and Raju Bahubalendruni, M. V. A.: A Review on Chemical and Mechanical Properties of Natural Fiber Reinforced Polymer Composites, International Journal of Performability Engineering 13(2), 189, 2017.
- [2] Wambua, P., Ivens, J. and Verpoest, I.: Natural fibres: can they replace glass in fibre reinforced plastics?, Composites Science and Technology, 63(9), 1259-1264, 2003.
- [3] Barone, J. R.: Polyethylene/keratin fiber composites with varying polyethylene crystallinity, Composites Part A: Applied Science and Manufacturing, 36(11), 1518-1524, 2005.
- [4] Barone, J. R. and Schmidt, W. F.: Polyethylene reinforced with keratin fibers obtained from chicken feathers, Composites Science and Technology, 65(2), 173-181, 2005.
- [5] Rutherford, T. A. and Hawk, P. B.: A study of the comparative chemical composition of the hair of different races, Journal of Biological Chemistry, 3(6), 459-489, 1907.
- [6] Lee, S. M. et al.: Novel silk/poly (butylene succinate) biocomposites: the effect of short fibre content on their mechanical and thermal properties, Composites Science and Technology, 65(3), 647-657, 2005.
- [7] Xie, Yanjun, et al.: Silane coupling agents used for natural fiber/polymer composites: A review, Composites Part A: Applied Science and Manufacturing, 41(7), 806-819, 2010.
- [8] McKittrick, J., et al.: The structure, functions, and mechanical properties of keratin, Jom, 64(4), 449-468, 2012.
- [9] Martínez-Hernández, A. L., et al.: Dynamical-mechanical and thermal analysis of polymeric composites reinforced with keratin biofibers from chicken feathers, Composites Part B: Engineering, 38(3), 405-410, 2007.
- [10] Yu, Y. et al.: Structure and mechanical behavior of human hair, Materials Science and Engineering: C, 73, 152-163, 2017.
- [11] Cheng, S. et al.: Mechanical and thermal properties of chicken feather fiber/PLA green composites, Composites Part B: Engineering, 40(7), 650-654, 2009.
- [12] Naidu, A. L. and Ramana Rao, P. S. V.: A Review on Chemical Behaviour of Natural Fiber Composites, International Journal of Chemical Sciences, 14(4), 2016.
- [13] Cao, J. and Leroy, F.: Depression of the melting temperature by moisture for
- -form crystallites in human hair keratin, Biopolymers, 77(1), 38-43, 2005.
- [14] Naidu, A. L., Jagadeesh, V. and Raju Bahubalendruni, R. V. A.: A review on chemical and physical properties of natural fiber reinforced composites, Journal of Advanced Research in Engineering and Technology, 8(1), 56-68, 2017.
- [15] Naidu, A. L. and Raob, D. N.: Studies on Characterization and Mechanical Behavior of Natural Clay, Int. Journal. of Multidisciplinary and Current Research, July, 2013.
- [16] Yang, L. et al.: Preparation and characterization of novel superartificial hair fiber based on biomass materials, International Journal of Biological Macromolecules, 99, 166-172, 2017.
- [17] Naidu, A. L., Raghuveer, D. and Suman, P.: Studies on Characterization and Mechanical Behavior of Banana Peel Reinforced Epoxy Composites, International Journal of Scientific & Engineering Research, 4(6), 844-851, 2013.
- [18] Oladele, I. O., Olajide, J. L. and Ogunbadejo, A. L.: The influence of chemical treatment on the mechanical behaviour of animal fibre-reinforced high density polyethylene composites, American Journal of Engineering Research, 4(2), 19-26, 2015.
- [19] Chakradhar, K. V. P. et al.: Epoxy/polyester blend nanocomposites: effect of nanoclay on mechanical, thermal and morphological properties,Malaysian Polymer Journal, 6(2), 109-118, 2011.
- [20] Naidu. A. L., Sudarshan. B., and Krishna, K. H.: Study on Mechanical Behavior of Groundnut Shell Fiber Reinforced Polymer Metal Matrix Composites. International Journal of Engineering Research and Technology, 2(2), 1-6, 2013.
- [21] Prasanna, G. V. and Subbaiah, K. V.: Modification, flexural, impact, compressive properties & chemical resistance of natural fibers reinforced blend composites, Malays. Polym. J., 8(1), 38- 44, 2013.
- [22] Chakradhar, K. V. P., et al.: Blended epoxy/polyester polymer nanocomposites: Effect of “nano” on mechanical properties, Polymer-Plastics Technology and Engineering 51(1), 92- 96, 2012.
- [23] Prasanna, V. G. and Venkata Subbaiah, K.: Modification of tensile, compressive properties & Chemical resistance of hybrid biocomposites, International Journal of Nanomaterials and Biostructures, 2(9), 2013.
- [24] Prasanna, G. V. and Subbaiah, K. V.: Hardness, tensile properties and morphology of blend hybrid biocomposites, Journal of Engineering Research 2(1), 21-29, 2013.
- [25] Suman, P., Lakshumu, N., Rao Ramana, P. S. V.: Processing and mechanical behaviour of hair fiber reinforced polymer metal matrix composites, International Journal of Mechanical and Production Engineering Research and Development, 469-478, 2016.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ed32a4dd-e8a2-45ce-8412-be0ecbad93e6