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Carbon‐glass reinforced epoxy hybrid composites for crashworthy structural applications

Mohamed Ibrahim Abd El Aal, Mahmoud M. Awd Allah, Marwa A. Abd El‐baky

2023Polymer Composites47 citationsDOIOpen Access PDF

Abstract

Abstract The goal of this work is to experimentally explore the crashworthiness performance and the deformation history of hybrid thin‐walled composite tubes. Glass (G)/carbon (C) reinforced epoxy circular specimens were prepared by wet wrap using hand lay‐up technique and then subjected to quasi‐static axial compressive loads to examine the impact of the hybridization process and stacking sequences on the crashworthiness performance and the deformation history. Crush indicators, that is, the initial peak force (), absorbed energy (AE), specific absorbed energy (SEA) of the designed tubes were assessed. The specimen's failure modes were discussed. Cost analysis for the proposed materials was carried out. According to the experimental findings, the hybridization and stacking order significantly influence the crashworthiness performance and failure mode of G/C reinforced epoxy composite tubes. C/2G/2C/2G/C hybrid is recommended as an energy absorber material for automobiles.

Topics & Concepts

CrashworthinessMaterials scienceComposite materialEpoxyDeformation (meteorology)Composite numberStackingFailure mode and effects analysisCarbon fibersDelamination (geology)Glass fiberStructural engineeringFinite element methodPhysicsTectonicsPaleontologyEngineeringNuclear magnetic resonanceSubductionBiologyCellular and Composite StructuresMechanical Behavior of CompositesNatural Fiber Reinforced Composites
Carbon‐glass reinforced epoxy hybrid composites for crashworthy structural applications | Litcius