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聚甲基丙烯酸缩水甘油酯(PGMA)接枝氮化硼/环氧树脂复合材料的制备及其热导率性能

Preparation of poly glycidyl methacrylate (PGMA) chain-grafted boron nitride/epoxy composites and their thermal conductivity properties.

作者信息

Zhang Haibao, Zhang Xian, Zheng Kang, Tian Xingyou

机构信息

Institute of Solid Physics, Hefei Institutes of Physical Science, Chinese Academy of Sciences Hefei People's Republic of China

Key Lab of Photovoltaic and Energy Conservation Materials, Institute of Solid State Physics, HFIPS, Chinese Academy of Sciences Hefei 230031 China

出版信息

RSC Adv. 2021 Jun 24;11(36):22343-22351. doi: 10.1039/d1ra00976a. eCollection 2021 Jun 21.

DOI:10.1039/d1ra00976a
PMID:35480823
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9034223/
Abstract

Surface modification of hexagonal boron nitride (h-BN) has the problem of reducing the interfacial thermal resistance, which has hindered its application in thermal conductive composites. Herein, poly glycidyl methacrylate (PGMA) chains were grafted onto the h-BN surface by simple radical polymerization; the thermal conductivity of epoxy (EP) composites was improved by adding the as-grafted h-BN-PGMA to EP resin. When the filling volume of h-BN-PGMA was 4, 10 or 16 vol%, the thermal conductivity of EP composite increased by 160%, 298% or 599%, respectively. Moreover, the h-BN surface modification was beneficial to enhance the compatibility between the filler and the EP matrix. Compared to EP/h-BN, the EP/h-BN-PGMA had higher thermal conductivity (1.197 W m K) under the same filling amount (16 vol%). Moreover, excellent dielectric properties and thermal stability indicated that EP/h-BN-PGMA composites were excellent thermal interface materials (TIMs) and could be applied in the field of thermal management. The preparation process is environmentally friendly, easy to operate, and suitable for large-scale practical applications.

摘要

六方氮化硼(h-BN)的表面改性存在降低界面热阻的问题,这阻碍了其在导热复合材料中的应用。在此,通过简单的自由基聚合将聚甲基丙烯酸缩水甘油酯(PGMA)链接枝到h-BN表面;通过将接枝后的h-BN-PGMA添加到环氧树脂(EP)中提高了EP复合材料的热导率。当h-BN-PGMA的填充量为4、10或16体积%时,EP复合材料的热导率分别提高了160%、298%或599%。此外,h-BN表面改性有利于增强填料与EP基体之间的相容性。与EP/h-BN相比,在相同填充量(16体积%)下,EP/h-BN-PGMA具有更高的热导率(1.197 W m K)。此外,优异的介电性能和热稳定性表明EP/h-BN-PGMA复合材料是优异的热界面材料(TIMs),可应用于热管理领域。该制备工艺环境友好、易于操作,适用于大规模实际应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fe0c/9034223/f31a04ab566d/d1ra00976a-f1.jpg

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