Abstract
AbstractKevlar fibers are strong synthetic fiber with high heat resistant property, especially bullet-proof vest, military helmet, reinforced tires are good, which made Kevlar fiber as primary implementing composites in all the emerging engineering products. Owing to these advanced properties of Kevlar, this paper suggested to extending the implementation of Kevlar-based composite in complicated applications. In this regard, this paper gives a comparative study on Kevlar fiber by using an emerging simulation technique. In this work, ANSYS software is used to analyze the Kevlar fiber with different orientation angles under tensile and bending loading conditions. The grid convergence test is conducted to confirm the used computational procedures. The conventional cum analytical formula-based validation is executed and thereby the error percentages are attained within acceptable rate. Finally, the optimizations of fiber angle orientation are executed based on the structural evaluation parameters such as equivalent stress, strain energy, and deformation. The Model numbers of 20, 27, and 31 are performed better for the given peak loading conditions.KeywordsBending loadKevlarTensile loadOrientationOptimizationPolymer composite
Published Version
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