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Flexural and interlaminar shear response of novel methylmethacrylate composites reinforced with high-performance fibres

Aswani Kumar Bandaru, Jayaram R. Pothnis, Alexandre Portela, Raghavendra Gujjala, Hong Ma, Ronan M. O’Higgins

2024Polymer Testing20 citationsDOIOpen Access PDF

Abstract

This experimental work presents a comparative study on the mechanical behaviour of novel infusible methylmethacrylate matrix (Elium®) composites reinforced with different types of high-performance fibres. A vacuum-assisted resin infusion process was employed to fabricate the laminates using carbon, basalt, Kevlar®, and high molecular weight polyethene (UHMWPE) fibres. Flexural and interlaminar shear properties of the composites were evaluated. Test results revealed that carbon fibre composites had superior flexural strength, stiffness and interlaminar shear stress as compared to the other composites tested. Further, composites containing Kevlar and UHMWPE fibres demonstrated significantly higher flexural strains to failure. Post-testing, specimens were examined using scanning electron microscopy (SEM). Microscopy revealed possible interfacial interaction differences based on the reinforcement fibre type, which was further confirmed by an analytical approach for analysing the flexural behaviour of various types of composites. The sequence of damage progression in specimens was also analysed. • Elium-matrix composites with varied fiber reinforcements were tested. • Carbon fibres showed superior flexural and shear properties due to enhanced fiber-matrix interactions. • Fibre stiffness notably impacted flexural behaviour in different composites. • Optimizing the fiber-matrix interface is crucial for enhancing mechanical performance.

Topics & Concepts

Materials scienceComposite materialFlexural strengthShear (geology)Flexural modulusMechanical Behavior of CompositesNatural Fiber Reinforced CompositesFiber-reinforced polymer composites