Mechanical characterization of novel Parthenium hysterophorus and Jute reinforced polymer matrix composites for light weight medium load applications and application of MADM-VIKOR approach

Abstract

This study explores the use of natural fibers in composite materials to enhance mechanical properties and reduce water absorption for lightweight medium load applications. The approach involves hybridizing Parthenium hysterophorus (PH) and Jute with epoxy L-12 matrix in different stacking sequences to create four tri-layer composites. Mechanical tests following ASTM standards revealed that composites with Jute fibers on top and PH fibers in the middle exhibit superior mechanical performance and reduced water absorption, making them suitable for such applications. The tensile strength of composite (CP4) with PH fiber at center and Jute fibers at extreme was found to be 1.7 times higher compared to composite with all three layers of PH fiber (CP1). Similarly, the flexural strength and compressive strength of CP4 is found to be 60% and 80.5% more compared to CP1. Shore D hardness of CP4 is found to be 1.29 times better compared to CP1. Whereas the energy absorption due to impact load of CP1 is better compared to its counter parts wit CP1 exhibiting 71.15 times better compared to CP4. Scanning electron microscope (SEM) analysis of fractured surfaces provides insights into fiber bonding and fracture mechanisms. Overall, this research underscores the potential of natural fiber hybrid composites for improved mechanical characteristics and water resistance in various applications, highlighting specific fiber combinations and stacking sequences.