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Strain monitoring in reduced graphene o<scp>xide‐coated</scp> glass fiber/epoxy composite

Mojdeh Reghat, Franz Konstantin Fuss, Peter Middendorf, Robert Bjekovic, Lachlan Hyde, Nishar Hameed, Bronwyn Fox

2022Polymer Composites16 citationsDOIOpen Access PDF

Abstract

Abstract This study investigates the influence of reduced graphene oxide (rGO) coated glass fabrics on the strain sensing and the mechanical characteristics of fiber‐reinforced composites. Graphene oxide was applied in two thicknesses (threefold and fivefold coatings) onto a fabric using a padder mangle machine followed by thermal reduction and infused with an epoxy to manufacture rGO‐enhanced composite. The tensile modulus and flexural strength of the rGO‐enhanced composites with threefold coating were improved by 27% and 6.2%, respectively, compared with the equivalent composite manufactured without rGO. The normalized resistance (Δ R / R 0 ) of composites increased by 0.89% and 3.48% under a cyclic tensile force of 1000 and 4000 N. The magnitude of Δ R / R 0 was stable within 30 cycles suggesting a consistent strain sensing performance with a gauge factor of 15.55. The electrical response of the rGO‐enhanced composite was evaluated using a new industrial standard for sensors, by assessing calibration curves. The composite showed low hysteresis and low electrical viscosity which make these materials suitable for industrial piezoresistive strain sensors.

Topics & Concepts

Materials scienceGauge factorComposite materialGrapheneComposite numberEpoxyPiezoresistive effectUltimate tensile strengthStrain gaugeFlexural strengthOxideGlass fiberHysteresisFabricationNanotechnologyPhysicsAlternative medicineMetallurgyPathologyMedicineQuantum mechanicsAdvanced Sensor and Energy Harvesting MaterialsSmart Materials for ConstructionConducting polymers and applications
Strain monitoring in reduced graphene o<scp>xide‐coated</scp> glass fiber/epoxy composite | Litcius