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Determination of mechanical properties of two-phase and hybrid nanocomposites: experimental determination and multiscale modeling

Mahmoud Haghighi, Hossein Golestanian, Farshid Aghadavoudi

2021Journal of Polymer Engineering22 citationsDOI

Abstract

Abstract In this paper, the effects of filler content and the use of hybrid nanofillers on agglomeration and nanocomposite mechanical properties such as elastic moduli, ultimate strength and elongation to failure are investigated experimentally. In addition, thermoset epoxy-based two-phase and hybrid nanocomposites are simulated using multiscale modeling techniques. First, molecular dynamics simulation is carried out at nanoscale considering the interphase. Next, finite element method and micromechanical modeling are used for micro and macro scale modeling of nanocomposites. Nanocomposite samples containing carbon nanotubes, graphene nanoplatelets, and hybrid nanofillers with different filler contents are prepared and are tested. Also, field emission scanning electron microscopy is used to take micrographs from samples’ fracture surfaces. The results indicate that in two-phase nanocomposites, elastic modulus and ultimate strength increase while nanocomposite elongation to failure decreases with reinforcement weight fraction. In addition, nanofiller agglomeration occurred at high nanofiller contents especially higher than 0.75 wt% in the two-phase nanocomposites. Nanofiller agglomeration was observed to be much lower in the hybrid nanocomposite samples. Therefore, using hybrid nanofillers delays/prevents agglomeration and improves mechanical properties of nanocomposite at the same total filler content.

Topics & Concepts

NanocompositeMaterials scienceComposite materialCarbon nanotubeEconomies of agglomerationPhase (matter)Thermosetting polymerPolymer nanocompositeEpoxyChemical engineeringEngineeringChemistryOrganic chemistryCarbon Nanotubes in CompositesPolymer Nanocomposites and PropertiesTribology and Wear Analysis
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