Effect of hygrothermal aging on novel hybrid composites: Transforming textile waste into a valuable product

The textile industry now produces thousands of tons of waste worldwide, and the total amount of discarded material waste increases yearly. Hygrothermal aging of cotton/E-glass (hybrid) fiber reinforced with various proportions of graphene oxide (0%, 1%, 3%, 5%, 7%, and 9%) was performed. Epoxy and vinyl ester (50:50) have been chosen because of the Interpenetrating Polymer Networks (IPNs) concept. Laminates were subjected to 50, 60, and 70 degrees C temperatures for 180 days. Further, Tg and the degree of cross-linking have been determined by using differential scanning calorimetry (DSC). DSC analysis proves that a hot water bath enhances the cross-linking of the polymer. IPN laminates were also intermittently weighed for water uptake, and their consecutive mechanical properties like tensile, flexural, and impact strength were obtained. From this work, it was observed that the addition of 5 w.t% graphene oxide in cotton/E glass fiber vinyl ester/epoxy resin hybrid IPN composites showed a tensile strength of 375.61 MPa, flexural strength of 393.54 MPa, Interlaminar shear strength (ILSS) of 49 MPa and the impact strength of 22.54 MPa. Moreover, the lowest inclusion of particulate addition exhibits better mechanical properties than (up to 5% of GO) the highest particulate loading into the matrix. SEM study was conducted on the broken specimens to know the impact of diffusion characteristics on the physical properties of the IPN composites.HighlightsNatural and synthetic fibers are used as reinforcements.Waste cotton/E glass fiber vinyl epoxy composites are fabricated.Laminates were subjected to diverse temperatures for 180 days.The moisture diffusion coefficient is proportional to water temperature.Bathtub temperature affects the tensile strength of the laminate. Waste to value.image