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Nanoscale thermal properties of carbon nanotubes/epoxy composites by atomistic simulations

Shahin Mohammad Nejad, Rajat Srivastava, Francesco Maria Bellussi, Hernán Chávez Thielemann, Pietro Asinari, Matteo Fasano

2020International Journal of Thermal Sciences58 citationsDOIOpen Access PDF

Abstract

Carbon nanotubes/epoxy composites are increasingly employed in several industrial fields, because of the enhanced material properties provided by the nanofillers. In particular, the thermal conductivity of these nanocomposites is determined by heat transfer mechanisms occurring over multiple scales, thus causing a complex relation between effective response and microscopic characteristics of the material. Here, the thermal properties of epoxy composites reinforced by carbon nanotubes are investigated using atomistic simulations. For a better understanding of how the effective thermal conductivity arises from the characteristics of the composite at the nanoscale, the thermal properties of its constituents are studied separately according to different geometrical, physical and chemical characteristics. The thermal conductivity of carbon nanotubes and epoxy resin alone is first investigated by molecular dynamics; then, the Kapitza resistance at the nanotube–nanotube and nanotube–epoxy interfaces is studied as well. The effective thermal conductivity of the carbon nanotubes/epoxy composite is finally computed and the observed behavior interpreted on the basis of the properties of the nanofillers, matrix and interfaces alone. Results – verified against effective medium theory predictions – show that, for the considered configurations, the effective thermal conductivity of the nanocomposite increases with the nanotube length and volume fraction, with the curing degree of the epoxy and system temperature. In perspective, the presented approach could be employed to investigate other constitutive materials or properties of nanocomposites.

Topics & Concepts

Materials scienceCarbon nanotubeComposite materialEpoxyNanocompositeThermal conductivityVolume fractionComposite numberNanotubeInterfacial thermal resistanceCuring (chemistry)Nanoscopic scaleThermal resistanceThermalNanotechnologyThermodynamicsPhysicsThermal properties of materialsCarbon Nanotubes in CompositesTribology and Wear Analysis
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