Alumina bodies with near-to-theoretical density by aqueous gelcasting using concentrated agarose solutions

Aqueous gelcasting with agarose has demonstrated to be a suitable method for near-net shaping of ceramics. Improved reliability is reached when agarose is added as an aqueous solution, but this introduces an additional contribution of water that reduces solids loading (i.e. green density) and increases the drying shrinkage and weight loss (i.e. the dimensional tolerance and reliability). To avoid such problems the feature is to increase the concentration of the agarose solution and the solids loading. This work reports the preparation of agarose solutions to concentrations of 3.0 and 5.6 wt.% by simply heating at 90 degrees C and by overpressure heating (> 110 degrees C). The dissolution and gelling behaviour have been studied from the flow curves and measurements of viscosity as a function of temperature on cooling. The theological properties of alumina suspensions with solids loadings of 80, 83 and 84 wt.% (50, 55 and 57 vol.%) are studied, focusing on the gelling behaviour after the addition of agarose. Gelcasting into metallic moulds leads to green bodies with relative densities higher than 60%, and the shrinkage reduces below 5%, which is one half of that reported in previous works. Sintering at 1500 degrees C/2 h leads to relative sintered densities > 99% of theoretical, similar to those obtained by slip casting. (c) 2004 Elsevier Ltd and Techna Group S.r.l. All rights reserved.