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A.B.M. Supian,S. M. Sapuan,M. Jawaid,M. Y. M. Zuhri,R.A. Ilyas,A. Syamsir 한국섬유공학회 2022 Fibers and polymers Vol.23 No.1
The composite material in energy absorption tube application have gained a tremendous function as sacrificialstructure device in automotive, marine, and aerospace engineering. Due to capabilities of composite material inreinforcement structure, many researchers have explored to tailor the composite material properties to withstand into impactload condition. This present study of filament wound kenaf/glass hybrid composite tube was fabricated with three differentconfigurations of hybrid kenaf/glass fibre placement to obtained high capabilities of crashworthiness properties underintermediate-velocity impact load condition. Therefore, this present study has identified the hybridization technique of kenaf/glass fibre which tailored with various intraply stacking sequences parameter of filament winding technique to achieve betterimpact crashworthiness characteristic when compared with single synthetic glass composite fibre material. The arrangementof hybrid fibres in stacking sequence parameter has found that the hybrid specimen with high kenaf fibre fraction mass haveenhanced 68 % of energy absorbing value and the failure mode behaviour was more stable compare to synthetic glasscomposite tube specimen.