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Hierarchical aerospace epoxy composites of carbon fiber and hyperbranched filler: toughening behavior from nanocomposites to composites

Aldobenedetto Zotti, Simona Zuppolini, Anna Borriello, Luigi Trinchillo, Valeria Vinti, Mauro Zarrelli

2023Composite Structures23 citationsDOIOpen Access PDF

Abstract

In this work the effect of a glassy hyperbranched polymer (G_HBP), characterized by a Tg higher than room temperature (∼77 °C), on the mechanical properties of a patented epoxy resin was investigated. To define an optimized filler concentration, three different G_HBP contents were prepared by a solvent-free technique and improvements of fracture toughness compared to the neat matrix (ΔK C ∼ 16 % and ΔG C ∼ 39 %) and to the corresponding laboratory solvent-based procedure. The solvent-free procedure and the found optimal filler content were considered to manufactured long carbon fiber composite samples of both neat and G_HBP loaded matrix later tested and compared in terms of tensile and flexural properties, as well as fracture toughness performance. Mode I and II interlaminar fracture toughness tests were carried out, revealing remarkable increase of both onset and propagation (ΔG IC onset ∼ 29 % and ΔG IC prop ∼ 53 %) and preserving the G IIC value (ΔG IIC ∼+ 6 %). Validation tests in compression after impact were also performed and analyzed.

Topics & Concepts

Materials scienceComposite materialEpoxyFracture toughnessComposite numberNanocompositeFlexural strengthUltimate tensile strengthToughnessThermosetting polymerFiberMechanical Behavior of CompositesEpoxy Resin Curing ProcessesSynthesis and properties of polymers
Hierarchical aerospace epoxy composites of carbon fiber and hyperbranched filler: toughening behavior from nanocomposites to composites | Litcius