[npj Flex Electron] Highly thermally conductive carbon nanotubes pillared exfoliated graphite/polyimide composites
writer:Yongqiang Guo, Shuangshuang Wang, Kunpeng Ruan, Haitian Zhang and Junwei Gu*
keywords:thermally conductive
source:期刊
specific source:npj Flex Electron
Issue time:2021年
In this work, carbon nanotubes pillared grew on exfoliated graphite by microwave-assisted method is utilized as thermally conductive fillers (CPEG) in polyimide (PI) to fabricate CPEG/PI thermally conductive composites with the combining ways of “in-situ polymerization, electrospinning, lay-up & hot-pressing”. The prepared CPEG/PI composites realized the maximum thermal conductivity (λ, 1.92 W/(m·K)) at low CPEG amount (10 wt%), much higher than that of pure PI (0.28 W/(m·K)). The λ of CPEG/PI composites show almost no change after 1000 cycles of heating and cooling in the temperature of 25~100oC. The finite element analysis simulates the nano/microscale heat transfer in CPEG/PI composites to reveal the internal reason of the λ enhancement. The improved thermal conductivity model & empirical equation could better reflect the actual λ change trend of CPEG/PI composites. Actual application test shows the CPEG/PI composites could significantly reduce the operating temperature of CPU in mobile phone.
本文通過微波輔助法高效、穩定地制備出剝離石墨(EG)表面垂直生長取向碳納米管(CNT)的3D結構導熱填料(CPEG),并借助“原位聚合-靜電紡絲-層疊模壓”法制備CPEG/PI導熱復合材料,成功實現了在較低CPEG導熱填料用量下CPEG/PI導熱復合材料導熱性能的快速、高效提升。當CPEG用量為10 wt%時,CPEG/PI導熱復合材料具有最佳的導熱系數(λ, 1.92 W/(m·K)),遠高于純PI的λ(0.28 W/(m·K))。CPEG/PI導熱復合材料的λ在25~100oC溫度范圍內循環升降溫1000次后幾乎沒有變化,表現出優異的導熱性能穩定性和環境溫度耐受性。通過有限元法從微納尺度模擬熱流的傳導過程揭示了CPEG/PI導熱復合材料具有高導熱的根本原因。基于有效介質理論和能量守恒定律建立的導熱模型&經驗方程具有較好的理論計算/實驗測試結果的擬合度和匹配度,更能反應CPEG/PI導熱復合材料的λ實際變化情況。將CPEG/PI導熱復合材料置于手機CPU上能顯著降低CPU工作溫度,表現出優異的導/散熱功能和實際應用價值。