The total electrical conductivity, oxygen permeability, Faradaic efficiency
and thermal expansion of perovskite-type Sr0.97Fe0.80Ti0.20O3-delta were s
tudied. The oxygen permeation through strontium fenite-titanate ceramics wa
s found to be limited by both bulk ionic conduction and surface exchange ra
tes, similar to other Fe- and Ti-containing perovskites. Increasing iron co
ntent in the system Sr-0.97(Ti,Fe)O3-delta leads to a considerable increase
in oxygen ionic and electronic conductivities, and thermal expansion. The
ion transference numbers of Sr0.97Fe0.80Ti0.20O3-delta were determined by t
he Faradaic efficiency measurements, and estimated from the oxygen permeabi
lity data. Typical values of the transference numbers vary in the range fro
m 4 X 10(-3) to 1.5 X 10(-2) at 973-1223 K, decreasing with reducing temper
ature. The oxygen ionic conductivity of Sr0.97Fe0.80Ti0.20O3-delta is close
to the conductivity of the Zr0.92Y0.80O1.96 solid electrolyte. The average
thermal expansion coefficient of strontium ferrite-titanate, calculated fr
om dilatometric data, is (13.8+/-0.1)X 10(-6) K-1 at 300-780 K and (27.0+/-
0.4) x 10(-6) K-1 at 780-1040 K. (C) 2000 Published by Elsevier Science B.V
.