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Multiscale analysis of the compressive behaviour of polymer-based composites reinforced by hybrid Al2O3/Al fibres

Hao Tang, Jiaqi Xu, Constantinos Soutis, Aleksey Yerokhin

2024Composites Science and Technology10 citationsDOIOpen Access PDF

Abstract

Metal fibre reinforcements to polymer matrix composites (PMCs) bolster architectural flexibility and functionality affordably but feature a relatively weak interfacial bonding if not surface treated. This work demonstrates that Plasma Electrolytic Oxidation is promising to prepare woven hybrid Al2O3/Al reinforcements for PMCs. The compressive behaviour (a critical design parameter in structural design) of PMCs reinforced by ∼9 to 13 vol% γ-Al2O3/Al fibres with different oxide-to-metal ratios (∼20-50 vol%) is evaluated. The majority of fibres with the oxide ratio of 20% failed in micro-buckling mode at interlacing points. Compared to Al reinforcements, the hybrid Al2O3/Al fibres increased the specific compressive strength (σc/ρ) and modulus (Ec/ρ) of the composite by ∼15% and ∼58%, respectively. Oxide shells thicker than 15-20 μm limited further enhancement due to fibre failure by shear-induced rupture. Thinner shells on Al reinforcements are recommended for PMCs used to manufacture structural components in mechanical engineering applications.

Topics & Concepts

Materials scienceComposite materialCompressive strengthPolymerCellular and Composite StructuresMechanical Behavior of CompositesNatural Fiber Reinforced Composites