The Effect of Chemical Composition on High Temperature Behaviour of Fe and Cu Doped Mn-Co spinels

Andrea Masi; Mariangela Bellusci; Stephen J. McPhail; Franco Padella; Priscilla Reale; Jong-Eun Hong; Robert Steinberger-Wilckens; Maurizio Carlini

doi:10.1016/j.ceramint.2016.11.135

The Effect of Chemical Composition on High Temperature Behaviour of Fe and Cu Doped Mn-Co spinels

Andrea Masi, Mariangela Bellusci, Stephen J. McPhail, Franco Padella, Priscilla Reale, Jong-Eun Hong, Robert Steinberger-Wilckens, Maurizio Carlini

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

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Abstract

Mixed Mn-Co spinels are currently studied as protective coating materials for Solid Oxide Fuel Cells interconnects. Compositional changes in manganese cobaltites lead to modifications in the materials properties, such as sintering behaviour, thermal expansion and electrical conductivity, with advantages in the technological application.
In this work, the effect of Fe, Cu and simultaneous Fe+Cu doping of Mn-Co spinels has been studied. Different oxide powder mixtures were prepared with a High Energy Ball Milling (HEBM) treatment, obtaining highly reactive oxides that easily form single spinel phase compounds by moderate heating. The effect of the composition is observed on high temperature stability of the spinel phase and on densification behaviour of the powders, greatly enhanced by copper addition.
Analyses carried out on sintered pellets allow to observe simple relations among dopant concentration, thermal expansion and electrical conductivity. The combined effect is obtained in case of the simultaneous addition of multiple dopants. An appropriate composition can be therefore designed to obtain a material characterized by enhanced sintering behaviour, high electrical conductivity and tailored thermal expansion to fulfil the application requirements.

Original language	English
Pages (from-to)	2829-2835
Journal	Ceramics International
Volume	43
Issue number	2
Early online date	20 Nov 2016
DOIs	https://doi.org/10.1016/j.ceramint.2016.11.135
Publication status	Published - 1 Feb 2017

Keywords

Milling
Spinels
Thermal expansion
Electrical conductivity

ASJC Scopus subject areas

Energy Engineering and Power Technology
Ceramics and Composites

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10.1016/j.ceramint.2016.11.135

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Cite this

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title = "The Effect of Chemical Composition on High Temperature Behaviour of Fe and Cu Doped Mn-Co spinels",

abstract = "Mixed Mn-Co spinels are currently studied as protective coating materials for Solid Oxide Fuel Cells interconnects. Compositional changes in manganese cobaltites lead to modifications in the materials properties, such as sintering behaviour, thermal expansion and electrical conductivity, with advantages in the technological application.In this work, the effect of Fe, Cu and simultaneous Fe+Cu doping of Mn-Co spinels has been studied. Different oxide powder mixtures were prepared with a High Energy Ball Milling (HEBM) treatment, obtaining highly reactive oxides that easily form single spinel phase compounds by moderate heating. The effect of the composition is observed on high temperature stability of the spinel phase and on densification behaviour of the powders, greatly enhanced by copper addition.Analyses carried out on sintered pellets allow to observe simple relations among dopant concentration, thermal expansion and electrical conductivity. The combined effect is obtained in case of the simultaneous addition of multiple dopants. An appropriate composition can be therefore designed to obtain a material characterized by enhanced sintering behaviour, high electrical conductivity and tailored thermal expansion to fulfil the application requirements.",

keywords = "Milling , Spinels , Thermal expansion , Electrical conductivity",

author = "Andrea Masi and Mariangela Bellusci and McPhail, {Stephen J.} and Franco Padella and Priscilla Reale and Jong-Eun Hong and Robert Steinberger-Wilckens and Maurizio Carlini",

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doi = "10.1016/j.ceramint.2016.11.135",

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TY - JOUR

T1 - The Effect of Chemical Composition on High Temperature Behaviour of Fe and Cu Doped Mn-Co spinels

AU - Masi, Andrea

AU - Bellusci, Mariangela

AU - McPhail, Stephen J.

AU - Padella, Franco

AU - Reale, Priscilla

AU - Hong, Jong-Eun

AU - Steinberger-Wilckens, Robert

AU - Carlini, Maurizio

PY - 2017/2/1

Y1 - 2017/2/1

N2 - Mixed Mn-Co spinels are currently studied as protective coating materials for Solid Oxide Fuel Cells interconnects. Compositional changes in manganese cobaltites lead to modifications in the materials properties, such as sintering behaviour, thermal expansion and electrical conductivity, with advantages in the technological application.In this work, the effect of Fe, Cu and simultaneous Fe+Cu doping of Mn-Co spinels has been studied. Different oxide powder mixtures were prepared with a High Energy Ball Milling (HEBM) treatment, obtaining highly reactive oxides that easily form single spinel phase compounds by moderate heating. The effect of the composition is observed on high temperature stability of the spinel phase and on densification behaviour of the powders, greatly enhanced by copper addition.Analyses carried out on sintered pellets allow to observe simple relations among dopant concentration, thermal expansion and electrical conductivity. The combined effect is obtained in case of the simultaneous addition of multiple dopants. An appropriate composition can be therefore designed to obtain a material characterized by enhanced sintering behaviour, high electrical conductivity and tailored thermal expansion to fulfil the application requirements.

AB - Mixed Mn-Co spinels are currently studied as protective coating materials for Solid Oxide Fuel Cells interconnects. Compositional changes in manganese cobaltites lead to modifications in the materials properties, such as sintering behaviour, thermal expansion and electrical conductivity, with advantages in the technological application.In this work, the effect of Fe, Cu and simultaneous Fe+Cu doping of Mn-Co spinels has been studied. Different oxide powder mixtures were prepared with a High Energy Ball Milling (HEBM) treatment, obtaining highly reactive oxides that easily form single spinel phase compounds by moderate heating. The effect of the composition is observed on high temperature stability of the spinel phase and on densification behaviour of the powders, greatly enhanced by copper addition.Analyses carried out on sintered pellets allow to observe simple relations among dopant concentration, thermal expansion and electrical conductivity. The combined effect is obtained in case of the simultaneous addition of multiple dopants. An appropriate composition can be therefore designed to obtain a material characterized by enhanced sintering behaviour, high electrical conductivity and tailored thermal expansion to fulfil the application requirements.

KW - Milling

KW - Spinels

KW - Thermal expansion

KW - Electrical conductivity

U2 - 10.1016/j.ceramint.2016.11.135

DO - 10.1016/j.ceramint.2016.11.135

M3 - Article

SN - 0272-8842

VL - 43

SP - 2829

EP - 2835

JO - Ceramics International

JF - Ceramics International

IS - 2

ER -

The Effect of Chemical Composition on High Temperature Behaviour of Fe and Cu Doped Mn-Co spinels

Abstract

Keywords

ASJC Scopus subject areas

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