Abstract
The advent of the ultra-first digital system marked a transformative era in technology, particularly in monitoring natural phenomena through electromagnetic waves. For safeguard of the electronic instruments and mitigate electromagnetic interference, the utilization of electromagnetic absorbing materials has emerged as a crucial solution. In this context, the Moringa Oleifera fiber (MOF) which is exploded away as a waste material has the potential to disseminate the intensity of high intense electromagnetic wave plays a crucial role in presence of reduced graphene oxide (rGO) with epoxy as (rGO/MOF/EPOX) composite stand out as a promising approach. When incorporated into an epoxy matrix, MOF form a synergistic blend that not only provides electromagnetic shielding but also offers mechanical strength and stability. The change of complex permittivity of the material from 3.2 to 3.35 with 1wt% of rGO, produces a remarkable reflection loss along with increase of absorption efficiency from 68.38 % to 87.41%.The morphology of rGO/MOF/EPOX composite are analyzed through SEM which supports the ability of the composite to be a good electromagnetic shielding material. The physical, mechanical and thermal property MOF/EPOX composite has been evaluated in presence of rGO and discussed with correlation of dielectric properties of the material.