Toyohiko Sugiyama scite author profile

In order to obtain an alumina with a high surface area at elevated temperatures, a suppression of the &a phase transformation of alumina by decreasing the bulk density has been attempted. The abundance of the lattice defects and dislocations in the neck region would be a favourable site for nucleation of the a-phase. Therefore the decrease of the neck region, that is, the decrease in bulk density would lead to a suppression of the 8-a phase transformation. In order to decrease the bulk density, the alumina aerogel was prepared from boehmite sol. The bulk density was varied from 0.06 to 1.1 g ~r n -~ by decreasing the [-potential of the boehmite particles during ageing. The phase transformation and the surface area of alumina from aerogels with various bulk densities were examined at elevated temperatures. The phase-transformation temperature increased with decreasing bulk density. While the alumina with its bulk density of 1.1 g ~m -~ transformed to the a-phase at 1443 K, alumina aerogel with a bulk density of 0.06 g ~m -~ transformed to the a-phase at 1573 K. The shift of the transformation to a higher temperature can be understood in terms of the decrease in the neck region. As a result of the suppression of phase transformation, a large surface area was maintained at elevated temperatures. After heating at 1473 K for 5 h, the alumina aerogel, with a bulk density of 0.06 g ~r n -~, was composed of the &phase and its surface area was 90 m2 g-'. After completion of the phase transformation, i.e. at 1673 K for 5 h, alumina aerogel with a bulk density of 0.06 g ~m -~ still exhibited a surface area of 10 m2 g -l , larger than that of the conventional a-phase.

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Osaki

Horiuchi

Sugiyama

et al. 1998

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