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Mechanical and damping property evaluation of jute fiber reinforced composite periodic core sandwich panels

Qiu Chao, Apichit Maneengam, Sathiyamoorthy Margabandu, Prakhar Jindal, Pandurang Y. Patil, Guang-Wen Zheng, Rajeshkumar Selvaraj

2022Journal of Natural Fibers14 citationsDOI

Abstract

The present article investigates the dynamic characteristics of jute fiber-reinforced sandwich composite panels with periodic cores. The sandwich panel contains the jute fibers-reinforced polymer (JFRP) composites as face layers and the silicone rubber as the core layer. The tensile and flexural properties of JFRP composite material were examined using ASTM D3039 and ASTM D7264 standards. The finite element model was developed to obtain the dynamic properties of the composite sandwich panel with conventional and periodic cores. Furthermore, the influence of end condition, core to face layer thickness ratio, and face layer to core thickness ratio on the dynamic properties of the sandwich panels are presented. The numerical results indicate that the periodic core composite sandwich panel greatly influences the structural stiffness compared with a conventional composite sandwich panel.

Topics & Concepts

Materials scienceComposite materialSandwich-structured compositeSandwich panelComposite numberCore (optical fiber)StiffnessFiberUltimate tensile strengthFinite element methodSilicone rubberFlexural strengthFibre-reinforced plasticAluminium foam sandwichFlexural rigidityStructural engineeringLayer (electronics)EngineeringNatural Fiber Reinforced CompositesMechanical Engineering and Vibrations ResearchCellular and Composite Structures
Mechanical and damping property evaluation of jute fiber reinforced composite periodic core sandwich panels | Litcius