The effect of temperature, heating method and state of dispersion on the vacuum filter casting of alumina suspensions
journal contribution
posted on 2007-01-22, 12:11authored byJ.G.P. Binner, A.M. Murfin
It is well established that with advanced ceramic
powders the use of dispersed slips can result in
superior microstructures compared to those obtained
,from partially or fully flocculated slips but at the
cost of a signtjicantly slower casting rate. Recent
published research has also indicated that bodies
produced from coagulated slips have similar properties
to those.from dispersed slips due to the lubricating
nature of the hydrated layer surrounding the
powder particles. However, little attention has been
given to the possibility of accelerating the slow casting
rate obtained with dispersed or coagulated
advanced ceramic slips by the use of heating the slip.
This paper investigates the effect of elevated temperature
on the rheological properties and casting
rates of four slips: one dispersed electrostatically,
one dispersed electrosterically and two which are
based on electrostatic dispersion followed by the
addition of direrent salt levels to achieve coagulated
slips. It is observed that the use of elevated temperatures
results in increases in the casting rates in
all cases, however the coagulated slips behave dofferently
to dispersed slips. The latter display casting
rates which increase linearly with increasing temperature
whilst coagulated slips display an initial
rapid increase after which the casting rate decreases
signt$cantly. This is believed to be due to the interaction
between the permeability of the green body
and the state of dispersion of the slip. A further
observation arising from the work is that there is
generally an enhanced casting rate when microwave
energy is used to heat the slips compared to that
achieved with a convection oven. The mechanism of
acceleration is believed to be due to the rate of water movement through the cast being increased more
than the rate of water uptake by the cast.
History
School
Aeronautical, Automotive, Chemical and Materials Engineering
Department
Materials
Pages
1004940 bytes
Citation
BINNER and MURFIN, 1998. The effect of temperature, heating method and state of dispersion on the vacuum filter casting of alumina suspensions. Journal of the European Ceramic Society, 18, pp 791-798