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Enhanced electrical property of graphite/Al2O3 composite fabricated by reductive sintering of gel-casted body using cross-linked epoxy polymer

Yoshiaki Funahashi, Yunzi Xin, Kunihiko Kato, Huu Hien Nguyen, Takashi Shirai

2022Journal of Advanced Ceramics20 citationsDOIOpen Access PDF

Abstract

Abstract In the present study, graphite/alumina composites are fabricated via reductive sintering of gel-casted green bodies with structurally controlled cross-linked epoxy polymers for the first time. The cross-linking degrees of polymers are tuned by the amount ratio of epoxy monomer/polyvinyl alcohol cross-linker utilized in gel-casting process. Superior electrical properties with respect to 5-fold enhanced electrical conductivity and 2-fold higher carrier mobility are successfully achieved in graphite/alumina composite fabricated from cross-linked epoxy polymer, whose phenomenon is attributed to the excellent conductive path in ceramic matrix established by highly uniform network with improved graphitization degree.

Topics & Concepts

Materials scienceEpoxyPolyvinyl alcoholComposite materialGraphiteSinteringPolymerComposite numberMonomerCeramicCastingTape castingAdvanced Battery Materials and TechnologiesElectromagnetic wave absorption materialsDielectric materials and actuators
Enhanced electrical property of graphite/Al2O3 composite fabricated by reductive sintering of gel-casted body using cross-linked epoxy polymer | Litcius