Effect of compact structures on the phase transition, subsequent densification and microstructure evolution during sintering of ultrafine gamma alumina powder

Authors
Ahn, Jae-PyoungPark, Jong-KuLee, Hae-WeonKasuya, AFukuda, T
Issue Date
1999-02
Publisher
PERGAMON-ELSEVIER SCIENCE LTD
Citation
NANOSTRUCTURED MATERIALS, v.11, no.1, pp.133 - 140
Abstract
The effect of compact structures on the phase transition from gamma alumina (gamma-Al2O3) to alpha alumina (alpha-Al2O3) and densification during sintering of the compacts of ultrafine gamma alumina powder (n-Al2O3) has been studied. The onset temperature of gamma-->alpha phase transition during the sintering of n-Al2O3 compacts is affected significantly by the compact density as well as by the population of alpha-Al2O3 seed particles in the gamma-Al2O3 matrix. The nucleation and growth of alpha phase is considered to be facilitated by the mass transfer around the particle contacts and by the imbedded alpha-Al2O3 particles. The gamma-->alpha phase transition is proved to be detrimental to full densification of the n-Al2O3 compacts of gamma phase. The densification of high density compacts seems to be affected detrimentally by the phase transition in the range of 1050 degrees C to 1150 degrees C but finally reaches about 99% of theoretical density (TD) with fine grain structure. The unseeded compacts made by slurry casting are not densified above 73% TD even at 1400 degrees C, whereas the alpha-Al2O3-seeded compacts are densified up to 90% TD at 1400 degrees C and they have very large grain size of about 1 mu m in diameter. High density compaction technology is considered a useful method required to achieve fully dense sintered compacts with fine grains below 100nm even in the sintering of ultrafine powder compacts with a metastable phase. (C) 1999 Acta Metallurgica Inc.
Keywords
GRAIN-GROWTH; GREEN DENSITY; SNO2 POWDER; TRANSFORMATION; ALPHA-AL2O3; GAMMA-AL2O3; ZRO2; GEL; GRAIN-GROWTH; GREEN DENSITY; SNO2 POWDER; TRANSFORMATION; ALPHA-AL2O3; GAMMA-AL2O3; ZRO2; GEL; compact structure
ISSN
0965-9773
URI
https://pubs.kist.re.kr/handle/201004/142428
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