Isotropic enhancement of the thermal conductivity of polymer composites by dispersion of equiaxed polyhedral boron nitride fillers

Recently, hexagonal boron nitride (h-BN) has attracted attention as a high-thermal-conductivity filler for insulating polymers used in electronic devices. However, since the crystal structure of h-BN is analogous to that of graphite, h-BN exhibits a platelet crystalline shape with the anisotropy of...

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Veröffentlicht in:	Composites science and technology 2021-05, Vol.208, p.108770, Article 108770
Hauptverfasser:	Kusunose, Takafumi, Uno, Yoshinori, Tanaka, Yuki, Sekino, Tohru
Format:	Artikel
Sprache:	eng
Schlagworte:	Anisotropy Boron nitride Composite materials Conductivity Crystal growth Crystal structure Dispersion Electronic devices Epoxy Equiaxed structure Fillers Heat transfer Liquid phases Platelets Polymer matrix composites Polymers Thermal conductivity Yttrium oxide
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creator	Kusunose, Takafumi Uno, Yoshinori Tanaka, Yuki Sekino, Tohru
description	Recently, hexagonal boron nitride (h-BN) has attracted attention as a high-thermal-conductivity filler for insulating polymers used in electronic devices. However, since the crystal structure of h-BN is analogous to that of graphite, h-BN exhibits a platelet crystalline shape with the anisotropy of high thermal conductivity for the in-planar direction and an extremely low thermal conductivity for the trans-planar direction. Consequently, the composites dispersed by conventional h-BN platelets indicated considerably low thermal conductivity in the trans-planar direction owing to the orientation of h-BN platelets. In this study, the anisotropic thermal conductivity was improved by dispersion of equiaxed h-BN fillers. Equiaxed h-BN fillers with spherical polyhedron shape were successfully synthesized through liquid-phase crystal growth by heating an h-BN powder with a rare-earth oxide. The common low thermal conductivity observed for the trans-planar direction was improved in the epoxy composites including equiaxed h-BN fillers, which attained 21.4 Wm−1K−1 corresponding to a six-times-higher thermal conductivity than platelet h-BN filler. [Display omitted]
doi_str_mv	10.1016/j.compscitech.2021.108770
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However, since the crystal structure of h-BN is analogous to that of graphite, h-BN exhibits a platelet crystalline shape with the anisotropy of high thermal conductivity for the in-planar direction and an extremely low thermal conductivity for the trans-planar direction. Consequently, the composites dispersed by conventional h-BN platelets indicated considerably low thermal conductivity in the trans-planar direction owing to the orientation of h-BN platelets. In this study, the anisotropic thermal conductivity was improved by dispersion of equiaxed h-BN fillers. Equiaxed h-BN fillers with spherical polyhedron shape were successfully synthesized through liquid-phase crystal growth by heating an h-BN powder with a rare-earth oxide. The common low thermal conductivity observed for the trans-planar direction was improved in the epoxy composites including equiaxed h-BN fillers, which attained 21.4 Wm−1K−1 corresponding to a six-times-higher thermal conductivity than platelet h-BN filler. 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subjects	Anisotropy Boron nitride Composite materials Conductivity Crystal growth Crystal structure Dispersion Electronic devices Epoxy Equiaxed structure Fillers Heat transfer Liquid phases Platelets Polymer matrix composites Polymers Thermal conductivity Yttrium oxide
title	Isotropic enhancement of the thermal conductivity of polymer composites by dispersion of equiaxed polyhedral boron nitride fillers
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