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Effect of Layering Sequence on Impact Properties of Alkali Treated Phoenix Pusilla Fibers-Glass-Carbon Fabrics Reinforced Hybrid Composite Laminates

Madhu Puttegowda, Sanjay Mavinkere Rangappa, Anish Khan, Salma Ahmed Al‐Zahrani, Ahmed Al Otaibi, S. Pradeep, Yucheng Liu, Suchart Siengchin

2021Journal of Natural Fibers18 citationsDOI

Abstract

This work aims to evaluate the effect of stacking sequence on impact properties of polymer hybrid composites comprising randomly oriented Phoenix pusilla leaf fibers (PPFs), woven E-glass, and carbon fabrics. The PPFs were treated with 6% (w/v) NaOH solution for a period of 45 min. The composite laminates are produced through manual hand lay-up method by arranging treated PPFs, E-glass, and carbon fabrics in different layering sequences and impact and interlaminar shear strength properties were evaluated. The results showed that hybrid composites with carbon as outer layers exhibit an improved impact and an interlaminar strength property as compared to remaining hybrid laminates. Scanning electron microscopy investigation was also carried out on the fractured specimens in this work. This work is a part of exploring the use of hybrid composite prepared for some potential engineering applications.

Topics & Concepts

Materials scienceComposite materialLayeringComposite numberComposite laminatesScanning electron microscopeCarbon fibersStackingGlass fiberPhoenixFibre-reinforced plasticNuclear magnetic resonancePhysicsMetropolitan areaBiologyMedicineBotanyPathologyNatural Fiber Reinforced CompositesMechanical Behavior of CompositesTextile materials and evaluations
Effect of Layering Sequence on Impact Properties of Alkali Treated Phoenix Pusilla Fibers-Glass-Carbon Fabrics Reinforced Hybrid Composite Laminates | Litcius