Revolutionizing Composite Materials: Exploring Advanced Computational Techniques in Fiber-Reinforced PolymersPages 206-216
Pratibha M. Karandikar Abstract:
This review paper critically evaluates the integral role of advanced computational methodologies in optimizing the design and manufacturing processes of Fiber Reinforced Polymer Composite Materials (FRPCMs). FRPCMs, renowned for their superior mechanical properties, including strength, stiffness, and low weight, are extensively utilized across aerospace, automotive, and construction sectors. By harnessing advanced computational methods, researchers can precisely forecast mechanical properties, analyze failure modes, and optimize performance parameters of FRPCMs. The paper synthesizes current research findings to underscore the transformative potential of computational techniques in revolutionizing FRPCM production. Through an exhaustive analysis of computational methodologies, this review describes advancements, challenges, and future directions in FRPCM design and manufacturing. This review offers insights into the evolving landscape of FRPCM research, highlighting the key role of computational approaches in extending material performance and increase application spectra.
Keywords: Computational methodologies,
FRPCM optimization,
Mechanical property prediction,
Failure mode analysis,
Material performance enhancement
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