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| Azevedo, Nuno Monteiro |
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Roslan, Mohd Nazrul
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Topics
Publications (10/10 displayed)
- 2021Analysis of Sandwich Core Fiber Composite Subjected to Different Skin Reinforcement Materials
- 2020Physical and Mechanical Characterization of Kenaf Fiber Filament Wound Composite Produced Using Vacuum-Bagging and Heat-Shrink Tube Methodcitations
- 2019Axial impact crushing behaviour of thin-walled braided composite tubes: experimental comparison on basalt fibre and glass fibre reinforcementcitations
- 2018Energy absorption performance of braided basalt reinforced composite tubes under axial loads
- 2016Ballistic Impact Response of Woven Hybrid Coir/Kevlar Laminated Compositescitations
- 2014Impact of alkali treatment conditions on kenaf fiber polyester composite tensile strengthcitations
- 2013Influence of Woven and Cross-ply Laminates on Mechanical Properties of Coir Epoxy Compositecitations
- 2013Modelling Analysis on Mechanical Damage of Kenaf Reinforced Composite Plates under Oblique Impact Loadingscitations
- 2013Mercerization Treatment Conditions Effects on Kenaf Fiber Bundles Mean Diameter Variabilitycitations
- 2011Mechanical Properties Evaluation of Woven Coir and Kevlar Reinforced Epoxy Compositescitations
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article
Axial impact crushing behaviour of thin-walled braided composite tubes: experimental comparison on basalt fibre and glass fibre reinforcement
Abstract
The collapse performance and energy absorption of thin-walled tube of basalt/epoxy and glass/epoxy subjected to axial quasi-static and dynamic impact crushing were investigated. The effects of braid orientation, fibre materials, and loading rate focusing on crushing behaviour were discussed. The braid orientation could be found to have significant influences on energy absorption performance and crushing mechanism. Based on results, thin-walled basalt composite tube has greater energy absorption capacity than thin-walled glass composite tube. The energy absorption capability in impact crushing tests could be found approximately 30% to be higher than that in quasi-static crushing tests. Thin-walled basalt/epoxy tubes have lower crush rate dependency as compared with thin-walled glass/epoxy tube.