In the present work, ZnO additions ranging from 0.1 to 10 wt% to ceram
ic BaTiO3 have been studied. By means of a controlled processing, two
different compounds were tested as a source of ZnO. The dopant distrib
ution plays a key role in the microstructural development of the ZnO-d
oped BaTiO3. When zinc stearate was used, homogeneous fine-grained mic
rostructure was obtained for 0.1 wt% of ZnO. However, high density was
avoided by burn out of the long organic chain. When solid ZnO was use
d as dopant, homogeneous fine-grained microstructure and density value
s around 99% D-t (D-t = 6.017 g cm(-3)) were obtained for ZnO composit
ions starting from 0.5 wt%. The sintering temperature was 100 degrees
C lower than for undoped BaTiO3. Control of grain growth in a wide tem
perature range led to ceramics with permittivity values close to 3000
and dielectric losses well below 1%. The incorporation of Zn2+ cations
into the BaTiO3 lattice takes place in Ba2+ sites, i.e. as an isovale
nt dopant. The solid solubility of ZnO in BaTiO3 was stated to fall be
low 0.5 wt% in the range of sintering temperatures studied. Additions
of large amounts of ZnO led to BaTiO3-ZnO composite materials. (C) 199
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