Data on the synergistic effect of a hybrid filler based on graphene nanoplates and multiwalled nanotubes for increasing the thermal conductivity of an epoxy composite

“…The effect of the thermally conductive filler morphology on the thermal conductivity of thermally conductive polymer-based composites has been widely studied. [95][96][97][98][99] Polymer-based composites with the combination of different morphologies of thermally conductive fillers can have a great influence on its thermal conductivity enhancement. The synergistic effect of hexagonal boron nitride (h-BN) with cubic boron nitride (c-BN) on the enhancement of the thermal conductivity of epoxy resin composites was studied.…”

Thermally conductive polymer-based composites: fundamentals, progress and flame retardancy/anti-electromagnetic interference design

“…The effect of the thermally conductive filler morphology on the thermal conductivity of thermally conductive polymer-based composites has been widely studied. [95][96][97][98][99] Polymer-based composites with the combination of different morphologies of thermally conductive fillers can have a great influence on its thermal conductivity enhancement. The synergistic effect of hexagonal boron nitride (h-BN) with cubic boron nitride (c-BN) on the enhancement of the thermal conductivity of epoxy resin composites was studied.…”

Thermally conductive polymer-based composites: fundamentals, progress and flame retardancy/anti-electromagnetic interference design

High-k Three-Phase Epoxy/K1.6(Ni0.8Ti7.2)O16/CNT Composites with Synergetic Effect