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Thermal conductivity and mechanical properties of graphite/Mg composite with a super-nano CaCO3 interfacial layer

Li Zhang, Kun-kun Deng, Kai-bo Nie, Cui-ju Wang, Chao Xu, Quan-xin Shi, Yu Liu, Jie Wang

2023iScience25 citationsDOIOpen Access PDF

Abstract

Incorporating graphite/graphene into a Mg alloy matrix is a promising approach for developing lightweight heat dissipation materials. However, carbon material is inherently incompatible with Mg because of their distinctly different surface characteristics, resulting in the challenge of composite fabricating and interface controlling. Herein, a new strategy of in situ interfacial modification was proposed to achieve excellent thermal conductivity and mechanical properties in graphite/Mg composites. A super-nano CaCO 3 interfacial layer was reported in this paper. The detailed interfacial structure, reaction thermodynamics and kinetics, and interface strengthening mechanisms were analyzed and discussed. Several preferential epitaxial relationships of the Mg/CaCO 3 interface were revealed, which are conducive to minimize the interfacial energy, stabilize and strengthen the interface. Moreover, strong ionic bond of graphite/CaCO 3 interface was demonstrated. The strong chemical interface bonding of graphite-Mg via in situ interface modification facilitates both the interfacial cohesion and interfacial thermal conduction, which endows the graphite/Mg composites with superior strength–thermal conductivity synergy.

Topics & Concepts

GraphiteMaterials scienceThermal conductivityComposite materialGrapheneComposite numberInterfacial thermal resistanceIonic conductivityMonolayerThermal conductionThermalNanotechnologyThermal resistanceElectrodeThermodynamicsChemistryPhysical chemistryElectrolytePhysicsAluminum Alloys Composites PropertiesThermal properties of materialsGraphene research and applications
Thermal conductivity and mechanical properties of graphite/Mg composite with a super-nano CaCO3 interfacial layer | Litcius