Electrical properties of N.T.C. thermistors made of manganite ceramics of general spinel structure: Mn3 − x − x′MxNx′O4 (0 ≤ x + x′ ≤ 1; M and N being Ni, Co or Cu). Aging phenomenon study

Electrical properties of N.T.C. thermistors made of manganite ceramics of general spinel structure: Mn3 − x − x′MxNx′O4 (0 ≤ x + x′ ≤ 1; M and N being Ni, Co or Cu). Aging phenomenon study

In this paper, we report our results on the electrical properties and aging phenomenon (or resistance drifts) of Negative Temperature Coefficient thermistors manufactured out of manganite ceramics of general spinel structure: Mn3 − x − x′MxNx′O4 (0 ≤ x + x′ ≤ 1; M and N being Ni, Co or Cu). It is sh...

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Bibliographic Details
Published in:Journal of materials science Vol. 35; no. 18; pp. 4705 - 4711
Main Author: Metz, R
Format: Journal Article
Language:English
Published: New York Springer Nature B.V 01-09-2000
Subjects:
Aging
Aging (metallurgy)
Cations
Ceramic bonding
Ceramics
Copper
Drift
Electrical properties
Electrodes
Heat treatment
Ion diffusion
Manganites
Materials science
Metallizing
Nickel
Solid solutions
Spinel
Thermistors
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Summary:In this paper, we report our results on the electrical properties and aging phenomenon (or resistance drifts) of Negative Temperature Coefficient thermistors manufactured out of manganite ceramics of general spinel structure: Mn3 − x − x′MxNx′O4 (0 ≤ x + x′ ≤ 1; M and N being Ni, Co or Cu). It is shown that the resistance drift is not a result of the use of metallic electrodes or metal/ceramic interfaces. However, thermal treatment used to bond metallic electrodes on ceramics triggers the electrical aging. Components with almost no electrical drift can be obtained by carefully controlling this metallization treatment. Beyond this experimental result we have tried to determine a suitable basic origin explaining the aging of NTC. Depending on the studied solid solutions, i.e. cations involved in the spinel structure, many overlapping complex ionic diffusion mechanisms might be operating. However, our study suggests that electrical aging might be triggered by the high mobility of Mn3+ cations which have the tendency to gather in clusters in such oxide structure.
ISSN:0022-2461
1573-4803
DOI:10.1023/A:1004851022668