The initial stage of shrinkage of a series of alumina powder compacts conta
ining different proportions of small and large particles was measured using
an in situ optical dilatometry technique. The effect of sample radiance, l
eading to overestimation of sample dimensions, was determined by comparing
the volume change of a fully dense alumina body with that predicted by ther
mal expansion data. Using this technique, it was possible to produce a cali
bration curve to eliminate the effect of sample radiance at elevated temper
atures. Results showed that with increased levels of large particles the de
gree of densification decreased. Shrinkage data were then compared with a m
odel that predicted parallel straight lines for plots of ln[1-(rho (i)/rho)
(1/3)] against ln[t/R-L(4)]where rho and rho (i) are current and initial de
nsity, t is time and R-L is the size of the large particles. The experiment
al results obtained were shown to be parallel with changes in the slopes of
the lines occurring at identical times irrespective of compact composition
. This behaviour was attributed to the range of the particle sizes present-
beyond the bounds of the model-giving rise to changes in the densification
rate with time. The analysis has shown that it is necessary to consider the
range of particle sizes that occur in real powder systems when attempting
to model the sintering behaviour of powders. (C) 2001 Acta Materialia Inc.
Published by Elsevier Science Ltd. All rights reserved.