Title :
Properties of non-stoichiometric PTCR ceramics
Author :
Chen, Kun-Chi ; Cheng, Syh-yuh ; Yang, Chun-Lien ; Wang, Chien-Min
Author_Institution :
Mater. Res. Labs. Ind. Technol. Res. Inst., Hsinchu, Taiwan
Abstract :
BaO- and TiO2-rich BaTiO3 (BT) ceramics were studied to disclose the relations among nonstoichiometry, phase formation, microstructure evolution and the positive temperature coefficient of resistance (PTCR) property. Both La3+ and Sb 3+ make BT ceramics semiconducting by way of A-site substitution. The available range of doping amount to obtain minimum resistivity increased with increasing TiO2 excess up to 7 mol.%. The second phase for TiO2 -rich compositions was Ba 6Ti17O40 which promoted grain growth and increased conductivity. The elimination of the grain boundary in the grain growth controls the PTCR jump. Better crystalline BT grains were provided by increasing the sintering temperature and TiO2 excess. For BaO-rich compositions, the second phase Ba2TiO 4 was formed and retarded grain growth. High resistivity (>108 Ω-cm) was usually found. A nonstoichiometric composition with a slight TiO2-rich content results in a better PTCR property
Keywords :
barium compounds; ceramics; crystal microstructure; ferroelectric materials; grain boundaries; sintering; stoichiometry; Ba6Ti17O40; BaTiO3; doping; grain boundary; grain growth; increased conductivity; microstructure evolution; nonstoichiometry; phase formation; positive temperature coefficient of resistance; semiconducting; sintering temperature; Barium; Ceramics; Chemistry; Conductivity; Doping; Grain boundaries; Lattices; Raw materials; Semiconductivity; Temperature;
Conference_Titel :
Applications of Ferroelectrics, 1990., IEEE 7th International Symposium on
Conference_Location :
Urbana-Champaign, IL
Print_ISBN :
0-7803-0190-0
DOI :
10.1109/ISAF.1990.200273
