The influence of ZrO2 additions on Al2O3 evaporation and aln crystal growth by thermal nitridation of Al 2O3- ZrO2 pellets

Yu You; Mikako Kato; Makoto Ohtsuka; Hiroyuki Fukuyama

doi:10.1111/jace.12545

The influence of ZrO₂ additions on Al₂O₃ evaporation and aln crystal growth by thermal nitridation of Al ₂O₃- ZrO₂ pellets

Yu You, Mikako Kato, Makoto Ohtsuka, Hiroyuki Fukuyama

IMRAM - Center for Mineral Processing and Metallurgy (CMPM)

Tohoku University

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

The effects of ZrO₂ additions to Al₂O₃ were investigated to improve the evaporation rate of Al₂O₃ for bulk AlN crystal growth. The evaporation rate of Al₂O ₃ increased concomitantly with increasing ZrO₂ concentration under a nitrogen gas stream at 2223 K. The ZrO₂ was predominantly nitrided. The nitridation of ZrO₂ kept the local oxygen partial pressure high at the pellet surface, which suppressed the nitridation of Al₂O₃. The nitridation of ZrO₂ caused the outward diffusion of ZrO₂ (Zr⁴⁺ and O^2-) in the pellet, which was accelerated further by the presence of Al₂O ₃-ZrO₂ liquid phase in grain boundaries, leading to the prompt formation of ZrN porous layer on the pellet surface. The suppressed nitridation of Al₂O₃ and the formation of porous ZrN layer were the reasons for the enhanced evaporation of Al₂O₃, leading to enhanced bulk AlN growth.

Original language	English
Pages (from-to)	3054-3060
Number of pages	7
Journal	Journal of the American Ceramic Society
Volume	96
Issue number	10
DOIs	https://doi.org/10.1111/jace.12545
Publication status	Published - 2013 Oct

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title = "The influence of ZrO2 additions on Al2O3 evaporation and aln crystal growth by thermal nitridation of Al 2O3- ZrO2 pellets",

abstract = "The effects of ZrO2 additions to Al2O3 were investigated to improve the evaporation rate of Al2O3 for bulk AlN crystal growth. The evaporation rate of Al2O 3 increased concomitantly with increasing ZrO2 concentration under a nitrogen gas stream at 2223 K. The ZrO2 was predominantly nitrided. The nitridation of ZrO2 kept the local oxygen partial pressure high at the pellet surface, which suppressed the nitridation of Al2O3. The nitridation of ZrO2 caused the outward diffusion of ZrO2 (Zr4+ and O2-) in the pellet, which was accelerated further by the presence of Al2O 3-ZrO2 liquid phase in grain boundaries, leading to the prompt formation of ZrN porous layer on the pellet surface. The suppressed nitridation of Al2O3 and the formation of porous ZrN layer were the reasons for the enhanced evaporation of Al2O3, leading to enhanced bulk AlN growth.",

author = "Yu You and Mikako Kato and Makoto Ohtsuka and Hiroyuki Fukuyama",

year = "2013",

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T1 - The influence of ZrO2 additions on Al2O3 evaporation and aln crystal growth by thermal nitridation of Al 2O3- ZrO2 pellets

AU - You, Yu

AU - Kato, Mikako

AU - Ohtsuka, Makoto

AU - Fukuyama, Hiroyuki

PY - 2013/10

Y1 - 2013/10

N2 - The effects of ZrO2 additions to Al2O3 were investigated to improve the evaporation rate of Al2O3 for bulk AlN crystal growth. The evaporation rate of Al2O 3 increased concomitantly with increasing ZrO2 concentration under a nitrogen gas stream at 2223 K. The ZrO2 was predominantly nitrided. The nitridation of ZrO2 kept the local oxygen partial pressure high at the pellet surface, which suppressed the nitridation of Al2O3. The nitridation of ZrO2 caused the outward diffusion of ZrO2 (Zr4+ and O2-) in the pellet, which was accelerated further by the presence of Al2O 3-ZrO2 liquid phase in grain boundaries, leading to the prompt formation of ZrN porous layer on the pellet surface. The suppressed nitridation of Al2O3 and the formation of porous ZrN layer were the reasons for the enhanced evaporation of Al2O3, leading to enhanced bulk AlN growth.

AB - The effects of ZrO2 additions to Al2O3 were investigated to improve the evaporation rate of Al2O3 for bulk AlN crystal growth. The evaporation rate of Al2O 3 increased concomitantly with increasing ZrO2 concentration under a nitrogen gas stream at 2223 K. The ZrO2 was predominantly nitrided. The nitridation of ZrO2 kept the local oxygen partial pressure high at the pellet surface, which suppressed the nitridation of Al2O3. The nitridation of ZrO2 caused the outward diffusion of ZrO2 (Zr4+ and O2-) in the pellet, which was accelerated further by the presence of Al2O 3-ZrO2 liquid phase in grain boundaries, leading to the prompt formation of ZrN porous layer on the pellet surface. The suppressed nitridation of Al2O3 and the formation of porous ZrN layer were the reasons for the enhanced evaporation of Al2O3, leading to enhanced bulk AlN growth.

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The influence of ZrO₂ additions on Al₂O₃ evaporation and aln crystal growth by thermal nitridation of Al ₂O₃- ZrO₂ pellets

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