Enhancing Mechanical Properties of High-Performance Fibre-Reinforced Composites Through Strategic Hybridization and COPRAS-based Optimization

Advanced Fibre-reinforced composites, renowned for their remarkable mechanical properties including high strength, stiffness, and fatigue resistance, have garnered considerable attention. To elevate these materials’ performance and meet the escalating demands of modern applications, researchers have delved into hybridization strategies. Hybridization entails amalgamating diverse Fibres, encompassing carbon, glass, aramid, and natural Fibres, within a single composite matrix to engender synergistic effects and attain superior mechanical performance. This study employs the COPRAS (Complex Proportional Assessment) multi-criteria decision-making method to comprehensively assess the mechanical properties and…