Inversion boundary induced grain growth in TiO2 or Sb2O3 doped ZnO-based varistor ceramics |
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Authors: | S. Bernik N. Daneu A. Renik |
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Affiliation: | Department for Nanostructured Materials, “Joef Stefan” Institute, Jamova 39, 1000, Ljubljana, Slovenia |
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Abstract: | In low-voltage varistor ceramics, the phase equilibrium and the temperature of liquid-phase formation are defined by the TiO2/Bi2O3 ratio. The selection of a composition with an appropriate TiO2/Bi2O3 ratio and the correct heating rate is important for the processing of low-voltage varistor ceramics. The total amount of added Bi2O3 is important as the grain growth is slowed down by a larger amount of Bi2O3-rich liquid phase at the grain boundaries. Exaggerated grain growth in low-voltage varistor ceramics is related to the occurrence of the liquid phase and the presence of TiO2 which triggers the formation of inversion boundaries (IBs) in only a limited number of grains, and as a result the final microstructure is coarse grained. The Zn2TiO4 spinel phase only affects grain growth in compositions with a TiO2/Bi2O3 ratio higher than 1.5. In high-voltage varistor ceramics, just a small amounts of Sb2O3 trigger the formation of IBs in practically every ZnO grain, and in compositions with a Sb2O3/Bi2O3 ratio lower than 1, grain growth that is controlled entirely by an IBs-induced grain growth mechanism results in a fine-grained microstructure. The spinel phase interferes with the grain growth only at higher Sb2O3/Bi2O3 ratios. |
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Keywords: | Grain growth Powders: solid-state reaction Sintering Grain size Microstructure-final ZnO Varistors |
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