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Idźkowska, Agnieszka
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Publications (5/5 displayed)
- 2015Deflocculation and stabilization of Ti3SiC2 ceramic powder in gelcasting processcitations
- 2014Acryloyl derivative of glycerol in fabrication of zirconia ceramics by polymerization in situcitations
- 2014Application of gelcasting method on ceramic-metal composite fabrication
- 2013The influence of nano-SiO2 particle size on dilatant effect of shear thickening fluids
- 2013The effect of nano SiO2 particle size distribution on rheological behaviour of shear thickening fluidscitations
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article
Deflocculation and stabilization of Ti3SiC2 ceramic powder in gelcasting process
Abstract
This paper presents results on the deflocculation and stabilization of Ti3SiC2 that are crucial for determining the quality of the ceramics after sintering in colloidal processing. Five different dispersants diammonium hydrogen citrate, citric acid, polyethyleneimine,polycarboxylic acid and ammonium polyacrylate were examined by measuring the zeta potential and performingstabilization tests and rheological measurements. The dispersant, found to exhibit the most desirable properties, was then used in the gelcasting process as a novel and attractive means of obtaining high-quality Ti3SiC2 materials with a complex-shape withoutthe addition of pressure. Furthermore, the utility of a glycerol derivative as a low-toxicity, water-soluble monomer in the fabrication of Ti3SiC2 by gelcasting was examined. Our measurements showed that polyelectrolytes such as polyethyleneimine, polycarboxylic acid and ammonium polyacrylate have a positive effect on the deflocculation and stabilization of Ti3SiC2 ceramic suspensions. Nevertheless, only ammonium polyacrylate effectively stabilizes the Ti3SiC2 slurry in the gelcasting process. Using ammonium polyacrylate, it was possible to obtain both high solid loading of approximately 60 vol% and a low-viscosity suspension. Using a suitable monomer and dispersant, the green bodies with a high density (62% of the theoretical density) wereobtained, which resulted in ceramic part with high mechanical strength. The tensile strength of the green bodies was approximately 1.5 MPa.