Issue 44, 2019, Issue in Progress

Bismuth trioxide-tailored sintering temperature, microstructure and NTCR characteristics of Mn1.1Co1.5Fe0.4O4 ceramics

Abstract

Mn1.1Co1.5Fe0.4O4 ceramics with tailored sintering temperature, microstructure, and NTCR characteristics were prepared using Bi2O3 sintering additive by a solid-state reaction route. Densification and morphological characterization indicate that bismuth trioxide can play a critical role in the sintering process. The results reveal that the sintering temperature can be decreased significantly from 1200 °C to 1050 °C by using the appropriate content of Bi2O3 additive. The resistivity decreases first and then increases with increasing Bi2O3 content. The obtained B25/50 value and ρ25 ranges were 3647–3697 K, and 800–1075 Ω cm, respectively. Oxygen sorption theory can be used to illustrate the optimal thermal stability (ΔR/R0 = 0.10%). Complex impedance analysis further elucidates that grain boundaries make a dominant contribution to the total resistance. The mechanisms of grain boundary conduction and relaxation behavior are systematically analyzed. These findings open up a window for the further advancement of NTC ceramics at lower sintering temperature.

Graphical abstract: Bismuth trioxide-tailored sintering temperature, microstructure and NTCR characteristics of Mn1.1Co1.5Fe0.4O4 ceramics

Article information

Article type
Paper
Submitted
22 Jun 2019
Accepted
08 Aug 2019
First published
15 Aug 2019
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2019,9, 25488-25495

Bismuth trioxide-tailored sintering temperature, microstructure and NTCR characteristics of Mn1.1Co1.5Fe0.4O4 ceramics

B. Wang, J. Wang, A. Chang and J. Yao, RSC Adv., 2019, 9, 25488 DOI: 10.1039/C9RA04676C

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