Investigation of tensile strength on thin-ply novel Kevlar/Basalt Fibre reinforced polymer composite panel in comparison with Kevlar/Basalt/graphene composite panel

A comparison of the tensile strength tests of two different types of composites is the major objective of this research. One type of composite is reinforced with Kevlar and basalt fibre laminate, while the other type of composite is filled with graphene nanoparticles. Materials and Methods of Procedure: Two groups of Kevlar/Basalt Fiber samples were analysed for their tensile strength. One group included filler (N=20), while the other group did not have filler (N=20). The control group and the experimental group were each given the same number of samples. For the purpose of determining the sample size, this approach employs an 80 percent G Power, with α =.05 each set. Additionally, a total of forty samples are collected for the purpose of doing the computation. Epoxy resin LY556 and hardener HY951 are the major components that make up this formulation. The filler substance is made up of nanoparticles of graphene, which are a new material. We are going to suppose that the G power is eighty percent. According to the findings, the tensile strength of the composite made of Kevlar and basalt fibre laminate is greater than that of the same composite that contains a filler consisting of Unique Graphene nanoparticles at a volume fraction of two percent. The results of this study indicated that there was a statistically significant difference between the two groups, as evidenced by a P value of 0.000 (p < 0.05). There exists a correlation that may be considered statistically significant between Kevlar/Basalt Fibre and a filler comprised of 2 percent. The constraints of this investigation show that a filler reinforced epoxy composite with a volume fraction of two percent of new graphene nanoparticles seems to have a lower tensile strength than a fiber-without-filler reinforced epoxy composite. This is the case for sustainable manufacturing.