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Mechanical Properties and Characterization of Palmyra Fiber and Polyester Resins Composite
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The worldwide interest for wood as a structure material is consistently developing, while the accessibility of this normal asset is lessening. This circumstance has prompted the advancement of elective materials. The paper is to manufacture the composite material for light weight applications. The green gases produced by plastics over the long haul will contaminate the climate. The time has come to fix an option in contrast to the plastics. We have discovered common fiber as the reasonable substitution. We have discovered regular fiber as the appropriate substitution. The common fiber having the few favorable circumstances yet despite the fact that some primary disadvantage additionally presents in the fiber. In this venture palmyra fiber is favored as a composite material. In any case, the fundamental inconveniences of characteristic strands in composites are the helpless similarity among fiber and grid. To defeat this issue, explicit physical and compound medicines were recommended for surface change of filaments by agents. Salt treatment is one of the basic and viable surface alteration procedures which are generally utilized in common fiber composites.
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Mechanical Properties, Palmyra Fiber, Polyester Resins Composite
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- F. I. Romli, A. N. Alias, A. S. M. Rafie, and D. L. A. A. Majid, “Factorial study on the tensile strength of a coir fiber-reinforced epoxy composite,” AASRI Procedia, vol. 3, pp. 242-247, 2012.
- K. Charlet, and A. Béakou, “Mechanical characterization and modeling of interfacial lamella within a flax bundle,” Procedia Engineering, vol. 10, pp. 906-911, 2011.
- Y. Li, C. Hu, and Y. Yu, “Interfacial studies of sisal fiber reinforced high density polyethylene (HDPE) composites,” Composites Part A: Applied Science and Manufacturing, vol. 39, no. 4, pp. 570-578, 2008.
- A. C. Milanese, M. O. H. Cioffi, and H. J. C. Voorwald, “Mechanical behavior of natural fiber composites,” Procedia Engineering, vol. 10, pp. 2022-2027, 2011.
- M. S. Meon, M. F. Othman, H. Husain, M. F. Remeli, and M. S. M. Syawal, “Improving tensile properties of kenaf fibers treated with sodium hydroxide,” Procedia Engineering, vol. 41, pp. 1587-1592, 2012.
- K. Mylsamy, and I. Rajendran, “Influence of alkali treatment and fiber length on mechanical properties of short agave fiber reinforced epoxy composites,” Materials & Design, vol. 32, no. 8-9, pp. 4629-4640, 2011.
- D. R. Mulinari, C. A. R. P. Baptista, J. V. C. Souza, and H. J. C. Voorwald, “Mechanical properties of coconut fibers reinforced polyester composites,” Procedia Engineering, vol. 10, pp. 2074-2079, 2011.
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