新型炭材料(中英文)2023,Vol.38Issue(5):804-824,21.DOI:10.1016/S1872-5805(23)60774-7
三维互连炭材料/金属导热复合材料的研究进展
Recent advances in 3D interconnected carbon/metal high thermal conductivity composites
摘要
Abstract
As the temperature of electronic devices continues to rise,the quest for high-efficiency heat dissipation has emerged as a critical concern,particularly when it comes to ensuring device performance and longevity.A high thermal conductivity is usually dependent on the ability of fillers to provide thermal conduction channels within composites.In recent years,the development of three-dimensional(3D)interconnected structures using high thermal conductivity fillers in composites has emerged as a promising approach.Compared to the traditional isotropic distribution and directional arrangements,3D interconnected filler structures im-prove the thermal conductivity.We review research progress on metal matrix composites with a 3D interconnected carbon filler that have a high thermal conductivity.The thermal conductivity mechanisms and models of composites are elaborated,and important factors relevant to improving the thermal conductivity are considered.Ways of constructing 3D interconnected carbon networks and their effects on the thermal conductivity of their composites should serve as a reference for the advancement of high-performance metal matrix thermal conductivity composites.关键词
炭填料/三维互连网络/金属基复合材料/导热性/制备方法Key words
Carbon filler/3D interconnected networks/Metal matrix composites/Thermal conductivity/Preparation method分类
化学化工引用本文复制引用
关洪达,何新波,张子建,张涛,曲选辉..三维互连炭材料/金属导热复合材料的研究进展[J].新型炭材料(中英文),2023,38(5):804-824,21.基金项目
This work was financially supported by the Na-tional Natural Science Foundation of China(51274040). 国家自然科学基金(51274040). (51274040)
