Compressive Behavior of Tamarind Shell Powder and Fine Granite Particles Reinforced Epoxy Matrix Based Hybrid Bio-Composites
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Abstract
Nowadays, hybrid bio-composites are being developed by combining different natural resources as reinforcement and filler components, and this has raised their necessary qualities dramatically. An epoxy resin matrix for compressive qualities was tested experimentally with the inclusion of fine granite powder and tamarind shell powder particles. As reinforcement materials, fine granite powder and tamarind shell powder are employed. Specimens of hybrid bio-composite were created by altering the reinforcement material weight % while maintaining the epoxy resin weight percentage the same. Utilizing a compression moulding process, composite boards made of hybrid biomaterials were created. Water jet machining is used to remove hybrid bio-composite specimens for compression tests in accordance with ASTM standards from the hybrid bio-composite boards. When fine granite and tamarind shell powder particles are added to the epoxy resin matrix, experimental results show that the compressive characteristics of the hybrid bio-composites are greatly improved.
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Tamarind shell powder, granite powder, hybrid composites, compressive strength, experimental study.
[2] Athijayamani. A, B. Stalin, S. Sidhardhan, and A. Alavudeen, J. Polym. Eng., 36, 157 (2016).
[3] P. Intharapat, A. Kongnoo, and K. Kateungngan, J. Polym. Environ., 21, 245 (2012).
[4] Balasubramaniam Stalin, Nagaraj Nagaprasad, Venkataraman Vignesh, Manickam Ravichandran, Evaluation of Mechanical and Thermal Properties of Tamarind Seed Filler Reinforced Vinyl Ester Composites, Journal of Vinyl and Additive Technology, 2019.
[5] M. Sangareswari Nagajothi, A. Balasubramanian, Nandhkishore Thombare, P.R. Renganayaki, Effect of Different Seed Sources on Tamarind Kernel Powder and Seed Gum Yield, Int. J. Curr. Microbiol. App. Sci. 6 (7) (2017) 318–323.