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Off-Axis and On-Axis Performance of Novel Acrylic Thermoplastic (Elium®) 3D Fibre-Reinforced Composites under Flexure Load

S.Z.H. Shah, P.S.M. Megat-Yusoff, Saravanan Karuppanan, R.S. Choudhry, Z. Sajid

2022Polymers17 citationsDOIOpen Access PDF

Abstract

)-based 3D-FRC. Ten different types of sample 3D-FRC were prepared by varying fibre orientations, i.e., 0°, 30°, 45°, 60° and 90°, and resin system, i.e., thermoplastic and thermoset. The bending characteristics and failure mechanisms were determined by conducting a three-point bend test. Results elucidate that the on-axis specimens show linear response and brittle failure; in contrast, the off-axis specimens depicted highly nonlinear response and ductile failure. The thermoplastic on-axis specimen exhibited almost similar flexure strength; in comparison, the off-axis specimens show ~17% lower flexure strength compared to thermoset 3D-FRC. Thermoplastic 3D-FRC shows ~40% higher energy absorption, ~23% lower flexure modulus and ~27% higher flexure strains as compared to its thermoset counterpart.

Topics & Concepts

Thermosetting polymerMaterials scienceComposite materialThermoplasticFlexural strengthBrittlenessBendingThermoplastic compositesMechanical Behavior of CompositesStructural Behavior of Reinforced ConcreteComposite Structure Analysis and Optimization
Off-Axis and On-Axis Performance of Novel Acrylic Thermoplastic (Elium®) 3D Fibre-Reinforced Composites under Flexure Load | Litcius