Abstract
Materials science and engineering depend heavily on composite materials since they are believed to perform better than metals and alloys when compared to traditional materials. Two different materials that have different properties put together form a composite material. Compared to metals and alloys, composite materials are lighter, have a longer lifespan, and don't experience wear and tear. Due to their superior mechanical qualities and evolving application dynamics, composite materials are becoming increasingly popular. Conventional methods for making and characterizing composite materials are well-established technologies. Better options for enhancing the mechanical, chemical, and physical properties of composite materials have been found, nevertheless, when fillers are used in small amounts in addition to traditional reinforcing fibers and resins. As an alternative to conventional metals, hybrid composites comprised of natural fibers like banana fibers and synthetic fibers like carbon and e-glass fibers are stronger, lighter, more affordable, biodegradable, and ecologically friendly.
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