In-Situ Reduced Graphene Filled Epoxy NanoComposite With Highest Storage Modulus

2 Pages Posted: 15 Apr 2019 Last revised: 10 Jun 2019

See all articles by Oluwaseun John Dada

Oluwaseun John Dada

Professorial Chair of Signature EcoSystems Technologies, NanoScale and Advanced Manufacturing Lab

Date Written: April 7, 2019

Abstract

Reduced graphene fillers were integrated into epoxy nanocomposites by solvent exchange of GO solution to acetone, ethanol and DMF, and subsequent in-situ thermal reduction and curing. The comparative fracture specimens of neat epoxy, acetone-rGO/epoxy, and DMF-rGO/epoxy showed ethanol-rGO/epoxy had greater load transfer by bonding and functionalization of the rGO surface with polymer chains from the epoxy via the solvent. The TGA and DTG showed marginal drop in the stability of the nanocomposites behind the neat epoxy, and DSC heat loss magnitude showed superior chemical bonding within ethanol-rGO/epoxy. The modulus increased with rGO content from 0, 0.05, 0.1, 0.2, 0.3 and 0.4 wt%, while the highest tensile strength was at 0.2 wt%. Thereafter, the dynamic and viscoelastic mechanical characteristics of rGO-epoxy nanocomposites: while the 0.4 wt% of rGO in ethanol-rGO/epoxy exhibited the highest storage modulus of 4144 MPa 0.91 tan delta, and a marginal decrease in glass transition temperature, Tg, while highest Tg was 115 ⁰C at 0.05 wt%. The dynamic mechanical storage moduli were fairly constant with increased amplitude from 0 to 4 µm, while loss moduli and tan delta only reduced at lower amplitudes from 0-4 µm.

Keywords: DMA; Epoxy NanoComposite; rGO; Mechanical Behaviour

Suggested Citation

Dada, Oluwaseun John, In-Situ Reduced Graphene Filled Epoxy NanoComposite With Highest Storage Modulus (April 7, 2019). Available at SSRN: https://ssrn.com/abstract=3367824 or http://dx.doi.org/10.2139/ssrn.3367824

Oluwaseun John Dada (Contact Author)

Professorial Chair of Signature EcoSystems Technologies, NanoScale and Advanced Manufacturing Lab ( email )

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Tai Kok Tsui
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