SnO2-based varistors capable of withstanding surge current

“…15,16,26 The starting compositions are shown in Table 1. The SnO 2 powder (purity of 99.5%) was blended with additives and ball milled in distilled water.…”

“…[11][12][13][14] Recently, the results of the current-voltage characteristics of the SnO 2 -based ceramic varistors test with high-current pulses were reported. [15][16][17][18] The grain resistivity is closely related to the high-current performance of varistor materials. Earlier high values of the grain resistivity in SnO 2 -based ceramic varistors have been reported.…”

“…15,16,26 The grain resistivity (1.2-2.2 ohm cm) in the SnO 2 -CoO-Nb 2 O 5 -Cr 2 O 3 -Y 2 O 3 system was estimated from high-current pulse data. 26 In this paper, new dense varistor ceramics in the SnO 2 -CoO-Nb 2 O 5 -Cr 2 O 3 -Y 2 O 3 -SrO-MgO system are presented, and their behaviour in the high current region is studied.…”

Electrical properties of new tin dioxide varistor ceramics at high currents

“…15,16,26 The starting compositions are shown in Table 1. The SnO 2 powder (purity of 99.5%) was blended with additives and ball milled in distilled water.…”

“…[11][12][13][14] Recently, the results of the current-voltage characteristics of the SnO 2 -based ceramic varistors test with high-current pulses were reported. [15][16][17][18] The grain resistivity is closely related to the high-current performance of varistor materials. Earlier high values of the grain resistivity in SnO 2 -based ceramic varistors have been reported.…”

“…15,16,26 The grain resistivity (1.2-2.2 ohm cm) in the SnO 2 -CoO-Nb 2 O 5 -Cr 2 O 3 -Y 2 O 3 system was estimated from high-current pulse data. 26 In this paper, new dense varistor ceramics in the SnO 2 -CoO-Nb 2 O 5 -Cr 2 O 3 -Y 2 O 3 -SrO-MgO system are presented, and their behaviour in the high current region is studied.…”

Electrical properties of new tin dioxide varistor ceramics at high currents

“…Bueno et al reported that the thermal conductivity of the SnO 2 -based varistor system was two times higher than that of the ZnO-based varistor [12]. It is inferred that, when surge energy was injected into the tested specimens, higher thermal conductivity could improve the temperature uniformity of the ceramic materials and reduce the probability of the thermal-mechanical failure [13], this will also improve their impulse energy absorption capability. In addition, several advantages have been reported for the SnO 2 -based varistors over the ZnO-based varistors [14], such as lower additive contents, higher threshold electric field, higher refractivity and better mechanical properties.…”

“…For this reason, it is expected that a good varistor device should have lower residual voltage ratio. Generally, the residual voltage ratio of commercial ZnO-based varistors is about 1.7, while the value of most SnO 2 -based varistors is more than 2 [13]. If the residual voltage ratio can be lowered further by composition optimizing or new manufacture process, the withstanding capability of the SnO 2 -based varistors to surge current will increase correspondingly.…”

Dependence of residual voltage ratio behavior of SnO2-based varistors on Nb2O5 addition

Tin Oxide Varistor Ceramics of High Thermal Conductivity