Gelation, Consolidation, and Rheological Properties of Boehmite-Coated Silicon Carbide Suspensions

We have studied the gelation, consolidation, and rheological properties of boehmite‐coated SiC suspensions. A boehmite‐coated SiC suspension consists of SiC particles covered with a boehmite layer of a few nanometers in thickness in the suspension. Similar to boehmite suspensions, the boehmite‐coate...

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Bibliographic Details
Published in:Journal of the American Ceramic Society 2000-08, Vol.83 (8), p.1879-1884
Main Authors: Yang, Chia-Yi, Shih, Wan Y., Shih, Wei-Heng
Format: Article
Language:English
Subjects:
coatings
colloids
rheology/rheometry
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Summary:We have studied the gelation, consolidation, and rheological properties of boehmite‐coated SiC suspensions. A boehmite‐coated SiC suspension consists of SiC particles covered with a boehmite layer of a few nanometers in thickness in the suspension. Similar to boehmite suspensions, the boehmite‐coated SiC suspension can gel over time. The gelation, as well as the rheological behavior of the boehmite‐coated SiC suspension with respect to pH, is shown to be similar to that of a boehmite suspension. However, because of the particle‐size difference, a boehmite‐coated SiC suspension gels more slowly than suspensions of smaller boehmite particles. The boehmite coating improves the consolidation density of SiC, increasing the sediment density from 39 to 52 vol% and the centrifuged density from 50 to 60 vol%. It, also, makes the consolidation behavior of a boehmite‐coated SiC suspension with respect to pH more consistent with the rheological behavior; i.e., lower suspension viscosity and storage modulus correlate with a higher consolidated density. In contrast, suspensions containing SiC particles partially covered with boehmite and individual boehmite particles in the suspensions show no improvement in the sediment density and no systematic correlation between the consolidation density and the rheological properties. This indicates that the complete coating of boehmite on the SiC particles is critical to the improvement in consolidation density.
ISSN:0002-7820
1551-2916
DOI:10.1111/j.1151-2916.2000.tb01485.x