Issue 3, 1997

The influence of the milling liquid on the properties of barium titanate powders and ceramics

Abstract

The influence of the milling liquid on the properties of donor-doped (La 3+ ) semiconducting barium titanate (BaTiO 3 ) ceramics, generated by the mixed oxide technique, was investigated. Distilled water and propan-2-ol were used as milling liquids. Water was found to have two essential effects. First, it dissolves Ba 2+ ions out of BaTiO 3 grains, thus creating core–shell structures which were confirmed by high-resolution electron microscopy (HREM) and electron energy loss spectroscopy (EELS). They consist of a 3–5 nm thick TiO x -rich layer followed by a layer (ca. 10 nm thick) with a molar Ba/Ti ratio increasing from 0 to 1. These core–shell structures of the BaTiO 3 powder positively affect the sintering behaviour of the greens by the high reactivity of the Ti-rich interlayer. Secondly, water cleans the BaTiO 3 powder of acceptor contaminants, producing ceramics with a low electrical resistivity at room temperature. Propan-2-ol-milled ceramics of a comparable composition show an electrical resistivity up to six orders of magnitude higher, owing to the compensation of La 3+ -doping by acceptor contaminants.

Article information

Article type
Paper

J. Mater. Chem., 1997,7, 487-492

The influence of the milling liquid on the properties of barium titanate powders and ceramics

H. Abicht, D. Völtzke, A. Röder, R. Schneider and J. Woltersdorf, J. Mater. Chem., 1997, 7, 487 DOI: 10.1039/A604730K

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