Microstructural evolution and its effect on corrosion behavior and mechanism of an austenite-based low-density steel during aging

The microstructural evolution during aging and its influence on corrosion behavior and mechanism of the Fe-19Mn-9Al-0.8 C-5Ni low-density steel (LDS) were studied. The results showed that the morphology, chemical property and proportion of the B2 phase in the LDS changed with aging time. These chang...

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Bibliographic Details
Published in:Corrosion science 2023-03, Vol.212, p.110936, Article 110936
Main Authors: Wu, Wei, Qin, Lizhi, Cheng, Xuequn, Xu, Feifan, Li, Xiaogang
Format: Article
Language:English
Subjects:
Aging treatment
B2 phase
Corrosion product film
Corrosion resistance
Low-density steel
Microgalvanic effect
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Summary:The microstructural evolution during aging and its influence on corrosion behavior and mechanism of the Fe-19Mn-9Al-0.8 C-5Ni low-density steel (LDS) were studied. The results showed that the morphology, chemical property and proportion of the B2 phase in the LDS changed with aging time. These changes effectively inhibited the microgalvanic effect between different phases at the initial corrosion and the local acidification at the late stage. Accordingly, the corrosion resistance of the aged LDSs continually increased as the aging time extended. Moreover, the corrosion mechanism and the properties of corrosion product film of the Fe-19Mn-9Al-0.8 C-5Ni LDS during aging were revealed in detail. •A kind of Fe-19Mn-9Al-0.8 C-5Ni low-density steel with good mechanical properties and corrosion resistance is obtained.•Extending aging time enhances the corrosion resistance of Fe-19Mn-9Al-0.8 C-5Ni low-density steel.•Aging at 500 ºC inhibits microgalvanic effect at the initial stage and alleviates local acidification at the later stage.•A uniform and protective film with an Al-rich inner layer and a Mn-rich outer layer is formed.
ISSN:0010-938X
1879-0496
DOI:10.1016/j.corsci.2022.110936