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Microstructure and ferroelectric properties of soft-doped sol-gel derived PZT/SKN fibers

: Hansch, R.; Braue, W.; Seifert, S.; Sporn, D.; Müller, G.


Journal of Materials Science : JMS 42 (2007), Nr.17, S.7316-7323
ISSN: 0022-2461
ISSN: 1573-4803
Fraunhofer ISC ()

Sol-gel derived PZT/SKN fibers with a final composition of 0.98(PbO)(1+z) (Zr0.53Ti0.47)O-2-0.02Sr(K0.25Nb0.75)O-3 and a PbO content of z = +0.04 and +0.14 in the spinning sol were sintered at different temperatures. Fiber stoichiometry, phase content and microstructure as well as the physical properties of the fibers were investigated. A fully densified microstructure independent from the initial PbO content was obtained for fibers sintered at 950 degrees C or higher. Enhanced porosity was found only for fibers sintered at 900 degrees C. The densification of the fiber batches at the lower temperatures is dominated by solid state sintering, while liquid phase sintering is promoted by sintering at temperatures above 900 degrees C. TEM investigations confirmed the homogeneous nature of the PZT/SKN fibers devoid of compositional gradients. Typical dielectric permittivity is in the range of 650-1000. The ferroelectric hysteresis loops are well pronounced showing typical soft-doped behavior with remanent polarization values in the range of 15 and 34 mu C/cm(2) and coercivities of about 1.9 V/mu m.