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Impact Response and Damage Tolerance of Hybrid Glass/Kevlar-Fibre Epoxy Structural Composites

Vasudevan Alagumalai, Vigneshwaran Shanmugam, Navin Kumar Balasubramanian, Yoganandam Krishnamoorthy, Velmurugan Ganesan, Michael Försth, Gabriel Sas, Filippo Berto, Avishek Chanda, Oisik Das

2021Polymers73 citationsDOIOpen Access PDF

Abstract

The present study is aimed at investigating the effect of hybridisation on Kevlar/E-Glass based epoxy composite laminate structures. Composites with 3 mm thickness and 16 layers of fibre (14 layers of E-glass centred and 2 outer layers of Kevlar) were fabricated using compression moulding technique. The fibre orientation of the Kevlar layers had 3 variations (0, 45 and 60°), whereas the E-glass fibre layers were maintained at 0° orientation. Tensile, flexural, impact (Charpy and Izod), interlaminar shear strength and ballistic impact tests were conducted. The ballistic test was performed using a gas gun with spherical hard body projectiles at the projectile velocity of 170 m/s. The pre- and post-impact velocities of the projectiles were measured using a high-speed camera. The energy absorbed by the composite laminates was further reported during the ballistic test, and a computerised tomographic scan was used to analyse the impact damage. The composites with 45° fibre orientation of Kevlar fibres showed better tensile strength, flexural strength, Charpy impact strength, and energy absorption. The energy absorbed by the composites with 45° fibre orientation was 58.68 J, which was 14% and 22% higher than the 0° and 60° oriented composites.

Topics & Concepts

KevlarComposite materialCharpy impact testMaterials scienceBallistic impactProjectileEpoxyIzod impact strength testGlass fiberUltimate tensile strengthComposite numberFlexural strengthMetallurgyMechanical Behavior of CompositesNatural Fiber Reinforced CompositesFiber-reinforced polymer composites
Impact Response and Damage Tolerance of Hybrid Glass/Kevlar-Fibre Epoxy Structural Composites | Litcius