Investigation of the early stage corrosion characteristics of molten (nitrate) salt – oxide – metal interfaces, and the links to interfacial thermo-mechanical stress

Qingyang Liu; Chun Wang; Jiong Qian; Frederick Pessu

doi:10.1016/j.corsci.2023.111282

Investigation of the early stage corrosion characteristics of molten (nitrate) salt – oxide – metal interfaces, and the links to interfacial thermo-mechanical stress

Qingyang Liu^*, Chun Wang, Jiong Qian, Frederick Pessu

^*Corresponding author for this work

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

5 Citations (Scopus)

Abstract

This paper investigates the early-stage corrosion behaviour of 4 alloys in solar-salt under air and argon at elevated temperatures for 7 days. The multi-layered interfacial corrosion oxides were observed to consist of an inner Cr-rich oxide and an outer Na/Fe-rich oxide. The inner tensile stress between the interfacial oxide layers were observed to correlate to the spallation of the porous outer Na/Fe-rich oxide layer. The combination of chemical aggression of molten salt, high temperature and argon atmospheres, acts in synergy to increase the kinetics of formation of Na/Fe–rich outer oxide layer, and it's tendency to degrade by spallation due to an inner tensile stress.

Original language	English
Article number	111282
Number of pages	11
Journal	Corrosion Science
Volume	220
DOIs	https://doi.org/10.1016/j.corsci.2023.111282
Publication status	Published - 1 Aug 2023
Externally published	Yes

Keywords

Molten salt
Multi -corrosion layer
Nano -indentation
Spallation
Stainless Steels
Thermal stress

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10.1016/j.corsci.2023.111282

Cite this

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title = "Investigation of the early stage corrosion characteristics of molten (nitrate) salt – oxide – metal interfaces, and the links to interfacial thermo-mechanical stress",

abstract = "This paper investigates the early-stage corrosion behaviour of 4 alloys in solar-salt under air and argon at elevated temperatures for 7 days. The multi-layered interfacial corrosion oxides were observed to consist of an inner Cr-rich oxide and an outer Na/Fe-rich oxide. The inner tensile stress between the interfacial oxide layers were observed to correlate to the spallation of the porous outer Na/Fe-rich oxide layer. The combination of chemical aggression of molten salt, high temperature and argon atmospheres, acts in synergy to increase the kinetics of formation of Na/Fe–rich outer oxide layer, and it's tendency to degrade by spallation due to an inner tensile stress.",

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T1 - Investigation of the early stage corrosion characteristics of molten (nitrate) salt – oxide – metal interfaces, and the links to interfacial thermo-mechanical stress

AU - Liu, Qingyang

AU - Wang, Chun

AU - Qian, Jiong

AU - Pessu, Frederick

PY - 2023/8/1

Y1 - 2023/8/1

N2 - This paper investigates the early-stage corrosion behaviour of 4 alloys in solar-salt under air and argon at elevated temperatures for 7 days. The multi-layered interfacial corrosion oxides were observed to consist of an inner Cr-rich oxide and an outer Na/Fe-rich oxide. The inner tensile stress between the interfacial oxide layers were observed to correlate to the spallation of the porous outer Na/Fe-rich oxide layer. The combination of chemical aggression of molten salt, high temperature and argon atmospheres, acts in synergy to increase the kinetics of formation of Na/Fe–rich outer oxide layer, and it's tendency to degrade by spallation due to an inner tensile stress.

AB - This paper investigates the early-stage corrosion behaviour of 4 alloys in solar-salt under air and argon at elevated temperatures for 7 days. The multi-layered interfacial corrosion oxides were observed to consist of an inner Cr-rich oxide and an outer Na/Fe-rich oxide. The inner tensile stress between the interfacial oxide layers were observed to correlate to the spallation of the porous outer Na/Fe-rich oxide layer. The combination of chemical aggression of molten salt, high temperature and argon atmospheres, acts in synergy to increase the kinetics of formation of Na/Fe–rich outer oxide layer, and it's tendency to degrade by spallation due to an inner tensile stress.

KW - Molten salt

KW - Multi -corrosion layer

KW - Nano -indentation

KW - Spallation

KW - Stainless Steels

KW - Thermal stress

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DO - 10.1016/j.corsci.2023.111282

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JO - Corrosion Science

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Investigation of the early stage corrosion characteristics of molten (nitrate) salt – oxide – metal interfaces, and the links to interfacial thermo-mechanical stress

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Keywords

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