Spinel forming ceramics of the system FexNiyMn3–x–yO4 for high temperature NTC thermistor applications

Autor: Walter Pölzl, Adalbert Feltz
Rok vydání: 2000
Předmět:
Zdroj: Journal of the European Ceramic Society. 20:2353-2366
ISSN: 0955-2219
DOI: 10.1016/s0955-2219(00)00140-0
Popis: The thermal stability and aging of spinels of the system Fe 2 O 3 –NiO–Mn-oxide are studied by measuring the electrical properties of ceramic samples obtained by sintering up to 1350°C. Based on the formula Fe III x Ni II y Mn z 3−x−y O 3+ x 2+δ , chemical analyses of ceramic samples with defined values of x and y make it possible to determine the average oxidation number z of manganese with z= 2δ 3−x−y +2 thus leading to the share of oxygen 2−x−2δ 4 O 2 which is liberated during sintering. X-ray diffraction measurements of samples with higher NiO and lower Fe 2 O 3 content indicate NiO separation. Hence, the analytical results are suitable to elucidate the phase constitution of the ceramics consisting of a mixture of NiO and of a spinel with modified composition. The formation of the spinel ceramics FeNi 0.5 Mn 1.5 O 4 ( x =1, y =0.5) and FeNi 0.7 Mn 1.3 O 4 ( x =1, y =0.7) in a single-phase state, i.e. without oxygen loss on sintering at 1350 or 1300°C in air, is due to the lower content of NiO at a sufficiently high fraction of Fe 2 O 3 in the composition. The compounds show ferrimagnetic behavior. FeNi 0.5 Mn 1.5 O 4 has a Curie temperature of 245 5°C. At increasing temperature, commonly above 150°C or 200°C up to 400°C the specific electrical resistivity ρ 25°C and the value of the B 25/100°C constant of both of the two compounds depend on time and on the thermal pre-treatment of the samples. Aging is due to the frozen-in state of the equilibrium of distribution of cations between the tetrahedral and octahedral sites of the spinel structure. This tends to shift towards equilibrium when the temperature is increased step by step during aging; it can be followed by measuring the electrical properties. The changes are observed to arise approaching the Curie temperature. Soaking of the samples at 650°C after aging for 72 and 144 h up to 500°C shows that the variations of the ρ 25°C and B 25/100°C values can be repeated in a following aging cycle, provided that the same cooling rate is applied. On the other hand, above 400 °C the ralaxation effects fail. Changes in this range of higher temperature involve fast rates of cation re-distribution thus leading to short waiting times until a constant value of the electrical resistivity is achieved. Hence, above 400°C, FeNi 0.5 Mn 1.5 O 4 ceramics appear completely stable against aging within common measuring times. Therefore, they should be suitable for high temperature NTC thermistor applications. The comparatively high value B 25/100°C =7470 K makes it possible to measure the temperature via the electrical resistivity with satisfactory sensitivity, e.g. α= 1 ρ d ρ dT =0.8% is achieved in the range around 750°C.
Databáze: OpenAIRE