Comparative studies on tensile strength of okra fiber polyester based on with and without corn husk biocomposites

The main objective of this study is to examine the tensile strength of polyester-okra fiber bio composites with and without black granules. The material used in a matrix, polymer resin, can be strengthened more firmly by being left outside for a while. The matrix acts as a medium for stress transfer, maintains the composite construction's shape, aligns the reinforcements, and protects the fibers from wear and corrosion. Thermosets and thermoplastics are the two main types of resins; they are distinguished by their various heat characteristics. During the curing process, thermos sets experience an irreversible chemical shift. In contrast, thermoplastics act as reversible materials since they melt when heated and solidify when cooled. The 10% innovative unique corn husk biocomposites okra fiber composite had a tensile strength of 35.6810 Mpa, compared to 25.8200 Mpa for the okra fiber composite, as per the experimental results. In the okra fiber composite, The statistical significance of the difference is p = 0.000; p © The Author(s), under exclusive licence to Springer Nature Switzerland AG 2024.