Usually a new composite material’s performance is often determined by its response under various mechanical, physical, tribological and thermal conditions as it gets very much essential for selecting materials of appropriate composition for application in a particular area. Subsequently, in the present examination, a wealth of property data has been accommodated an arrangement of epoxy-SPF composites by preparing them through hand-lay-up system and via doing different physical, mechanical, tribological, acoustic and warm tests on them under controlled research center conditions. It is watched that by fortifying short palmyra filaments into the flawless epoxy sap, its belongings, as wanted are accomplished as improved mechanical, physical, tribological, warm and acoustic properties. At the point when the centralization of SPF in the slick epoxy is expanded, the particular wear rate diminished slowly and in the meantime a decrease in the compelling warm conductivity is likewise seen as palmyra fiber is insulative in nature. This is joined by increment in both elastic and flexural quality. Further, the sound assimilation coefficient additionally expanded by a tremendous edge as the SPF fixation in the perfect epoxy expanded. The impacts of SPF content on the coefficient of warm development and glass change temperature of the composites are additionally observed to be critical. With a direct quality, diminished wear rate, high coefficient of sound assimilation and brought down warm conductivity, these epoxy-SPF composites can be effectively utilized for applications, for example, building protection material, sustenance compartments, inside of cars, inside mass of lobbies where sound retention in required, canteen flagons, bundling ventures, rollers of transport lines, brake cushions, and so forth.

H. P. S. Abdul Khalil, M. A. Tehrani, Y. Davoudpour, A. H. Bhat, M. Jawaid, and A. Hassan, “Natural Fiber Reinforced Poly(Vinyl Chloride) Composites: A Review,” Journal of Reinforced Plastics and Composites, vol. 32, no. 5, pp. 330-356, 2013.

A. A. Abdulmajeeda, T. O. Narhia, P. K. Vallittu, and L. V. Lassilla, “The Effect Of HighFiber Fraction On Some Mechanical Properties Of Unidirectional Glass-Reinforced Composites,” Dental Materials, vol. 27, pp. 313-321, 2011.

S. Garoushi, P. K. Vallittu, and L. V. Lassilla, “Short Glass Fiber Reinforced Restorative Composite Resin With Semi-Inter Penetrating Polymer Network Matrix,” Dental Materials, vol. 23, pp. 1356-1362, 2007.

N. G. Karsli, and A. Aytac, “Tensile and Thermos-Mechanical Properties of Short Carbon Fiber Reinforced Polyamide 6 Composites,” Composites Part B: Engineering, vol. 51, pp. 270-275, 2013.

N. Oya, and H. Hamada, “Effect of Reinforcing Fiber Properties on Various Mechanical Properties of Unidirectional Carbon/Epoxy Laminates,” Science and Engineering ofComposite Materials, vol. 5, pp. 105-129, 1996.

N. Oya, and D. J. Johnson, “Longitudinal Compressive Behavior And Microstructure of PAN-Based Carbon Fibers,” Carbon, vol. 39, pp. 635-645, 2001.