THE EFFECT OF MGAL2O4 ON THE FORMATION KINETICS OF AL2TIO5 FROM AL2O3 AND TIO2 FINE POWDERS

摘要

The formation of Al-2(1-x)MgxTi(1+x)O-5 solid solutions from Al2O3-TiO2-MgAl2O4 powder mixtures of approximate to 1 mu m particle size and moderate purity has been studied at 1300 degrees C for different final composition values: x=0 (''pure'' Al2TiO5), 10(-3), 10(-2) and 10(-1). Analysis of the kinetic data and microstructural observation indicates that MgAl2O4 affects the mechanism of Al2TiO5 formation by providing active nuclei for the growth of the new phase. These nuclei are probably constituted by Mg0.5AlTi1.5O5, i.e. the equimolar Al2TiO5-MgTi2O5 solid solution, and are formed by reaction between MgAl2O4 and TiO2 at temperatures above approximate to 1150 degrees C. As the value of x increases, the number of titanate particles per unit volume accordingly increases and the conversion of the original oxides is faster. At values of x less than or equal to 10(-2), the prevailing mechanism is the nucleation and growth of Al2TiO5 nodules for fractional conversion up to approximate to 0.8. Further conversion of the residual Al2O3 and TiO2 particles dispersed into the titanate nodules is slower and controlled by solid-state diffusion through Al2TiO5. At x=0.1, a large number of nucleation sites is present, and solid-state diffusion through Al2TiO5 becomes important even in the initial stage of reaction, as the diffusion distances a re strongly reduced. The study of Al2TiO5 formation under non-isothermal conditions in the temperature range 1250-1550 degrees C shows that reaction proceeds between 1300 and 1350 degrees C for x=0.01 and between 1250 and 1300 degrees C for x=0.1. Densification of the titanate becomes important at temperatures above 1300 degrees C for x=0.1, but only above 1450 degrees C for x=0.01. [References: 29]