Synthesis and Analysis of Natural Fibers Reinforcement of Synthetic ResinsGuduru KK1*, Pandu R2, Banothu S1 and Vinaya K3
- *Corresponding Author:
- Guduru KK
Christu Jyothi Institute of Technology Science
Jangaon, Warangal, Hyderabad, India
E-mail: [email protected]
Received Date: July 14, 2016; Accepted Date: July 21, 2016; Published Date: July 31, 2016
Citation: Guduru KK, Pandu R, Banothu S, Vinaya K (2016) Synthesis and Analysis of Natural Fibers Reinforcement of Synthetic Resins. J Material Sci Eng 5:272. doi:10.4172/2169-0022.1000272
Copyright: © 2016 Guduru KK, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Natural fiber Composites typically have a fiber or particle phase that is stiffer and stronger than the continuous matrix phase and serve as the principal load carrying members. The matrix acts as a load transfer medium between fibers, and in less ideal cases where the loads are complex, the matrix may even have to bear loads transverse to the fiber axis. In this research the comparative synthesis and analysis of Kenaf fiber (FRPMC1) and Polmera fibers (FRPMC2) are treated with NaOH solution and the fibers are properly reinforced with polypropylene resin and epoxy resin respectively in a matrix form to prepare hybrid composite laminates of 6 mm fiber length thereafter to with suitable specimens with ASTM D-638 and D-790 standards. The analysis was carried out by using FEA software for various loads and result factors. The surface is analyzed by SEM test with various resolutions. The matrix also serves to protect the fibers from environmental damage before, during and after composite processing. The surface is analyzed using when designed properly, the new combined material exhibits better strength than each individual material. Composites are used not only for their structural properties, but also for electrical, thermal, and eco-friendly environmental applications.