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Multi-scale hybrid spherical graphite composites: a light weight thermal interface material with high thermal conductivity and simple processing technology

Dingbang Yan, Zexian Li, Nizao Kong, Min Huang, Yexin Tian, Chong Ye, Liqin Fu, Bingjie Wen, Jinshui Liu, Ruixuan Tan, Fei Han

2022RSC Advances13 citationsDOIOpen Access PDF

Abstract

-derived composites. Besides, the relationships between the tap density of the graphite powders, thermal conductivity and maximum filling content of the composites are creatively established, which are available for predicting the thermal conductivities of composites by simply testing the tap density of the fillers. This present work provides an instructional strategy to optimize spherical filler particles for thermal management of electronic devices.

Topics & Concepts

Thermal conductivityGraphiteMaterials scienceComposite materialSimple (philosophy)Thermal greaseThermalInterface (matter)Scale (ratio)PhysicsCapillary actionPhilosophyMeteorologyQuantum mechanicsCapillary numberEpistemologyThermal properties of materialsComposite Material MechanicsGraphene research and applications