Hai Jiang, YiYing Lu, Liwen Ding, Wenzhong Lu, Guifen Fan and Yusheng Shi
Aluminum nitride (AlN) ceramics are suitable substrate and package materials for high-power integrated circuits.
Abstract
Purpose
Aluminum nitride (AlN) ceramics are suitable substrate and package materials for high-power integrated circuits.
Design/methodology/approach
Dense AlN ceramics with Y2O3 and LaF3 as sintering additives are prepared. The effects of these additives on the density, phase composition, microstructure and thermal conductivity of AlN ceramics are investigated.
Findings
Results show that 2 Wt.% Y2O3-doped additive is insufficient for the samples to achieve the full densification sintered at 1,700°C. When LaF3 is added with Y2O3, the samples are perfectly densified at the same sintering condition. The relative density and thermal conductivity of the samples are 97.8-99.07 per cent and 169.104-200.010 W·m-1·K-1, respectively. The density of the samples and their microstructure, especially the content and distribution of secondary phases, is necessary to control the thermal conductivity of AlN ceramics.
Originality/value
Y2O3 and LaF3 additives can effectively promote densification and enhance the thermal conductivity of AlN ceramics in a low sintering temperature, and the AlN ceramics added with Y2O3-LaF3 might have potential applications in package materials for high-power integrated circuits.