Advanced Biocomposites: Processing, Characterization and Applications
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DOI:
https://doi.org/10.59287/ijanser.390Keywords:
Natural Fibers, Synthetic Fibers, Advanced Biocomposites, Processing Techniques, Characterization MethodsAbstract
Natural fibers are being viewed as an alternative to synthetic fibers as environmental management and sustainability gain relevance. Both renewable and biodegradable, natural fibers are. In this way, it makes synthetic fibers more affordable. Natural fibers have several beneficial qualities, including high strength and sustainability, low specific density, and low cost. Natural fibers can be used, however their utilization is constrained by weak characteristics such matrix/fibre interactions and water resistance. Despite having excellent mechanical qualities, synthetic fibers like glass, carbon, and aramid have negative effects on human health and the environment. Combining natural and synthetic fibers is an excellent way to get around the drawbacks currently present. A new class of materials called advanced biocomposites combines the advantages of natural and synthetic components to produce desired qualities including improved mechanical, thermal, and biological performance. The goal of this research project is to examine the state-of-the-art in advanced biocomposites' processing, characterisation, and applications. The study will concentrate on the most recent advancements in processing technologies for biocomposite materials as well as the numerous characterization and testing procedures. Finally, the study will look into how advanced biocomposites might be used in industries including automotive, aerospace, biomedicine, and environmental. Future study will show that increasing the usage of these eco-friendly composite materials across a wide range of industrial sectors will lower pollution and increase societal sustainability standards.
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