This work presents a study of the influence of both Bi content and Sb/Bi ra
tio on the electrical characteristics of a commercial-type ZnO varistor. In
contrast to previous studies two nonlinear coefficients, the breakdown fie
lds and energy absorption abilities were measured after sintering at 970 de
greesC or 930 degreesC. The Bi-content was varied from 0.9 to 1.8 at% while
the Sb/Bi ratio was varied from 0.8 to 1.5, leading to values of up to 104
for the nonlinear coefficient alpha1, 1100 V mm(-1) for the breakdown fiel
d and 1137 J cm(-3) for the energy absorption ability. The highest alpha va
lue was measured for the highest Bi-content and the lowest Sb/Bi ratio and
vice versa. The breakdown field E-V increased with lower sintering temperat
ure, increased Sb/Bi ratio (at a given Bi-content) and increased Bi-content
(at a given Sb/Bi ratio). The energy absorption coefficient increased at t
he higher sinter temperature and with lower Sb and Bi concentrations.
The observed effects were related to the amount of spinel phase (Zn7Sb2O12)
formed during the sintering process and the amount of liquid phase present
during early stages of the sintering process.