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Research progress of diamond/aluminum composite interface design

Zengkai Jiao, Huiyuan Kang, Bo Zhou, Aolong Kang, Xi Wang, Haichao Li, Zhiming Yu, Li Ma, Kechao Zhou, Qiuping Wei

2022Functional Diamond25 citationsDOIOpen Access PDF

Abstract

Diamond/aluminum composite material has the advantages of high thermal conductivity, low expansion, and lightweight, which has a wide range of application prospects in the field of electronic packaging thermal management. However, the serious interface problems between diamond and aluminum limit the full play of the thermal conductivity of composite materials. A reasonable interface design can maximize the thermal conductivity of composite materials. This article focuses on the interface modification of diamond/aluminum composites, briefly describing the theoretical basis of interface design, the research status of interface modification, interface reaction and composite stability, and prospects for diamond/aluminum composites material development.

Topics & Concepts

DiamondComposite numberThermal conductivityMaterials scienceInterface (matter)AluminiumComposite materialCapillary numberCapillary actionAdvanced ceramic materials synthesisThermal properties of materialsConcrete and Cement Materials Research
Research progress of diamond/aluminum composite interface design | Litcius