Ni0.36Al0.10Cu0.30Fe0.24 Metallic Inert Anode for the Electrochemical Production of Fe-Ni Alloy in Molten K2CO3-Na2CO3
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DOI: 10.1007/s11663-018-1425-2
Abstract: In this paper, a Ni0.36Al0.10Cu0.30Fe0.24 metallic inert anode was proposed and the electrochemical behaviors were studied in molten K2CO3-Na2CO3 at 1023 K by polarization curves and Tafel plots. The results indicated that Ni0.36Al0.10Cu0.30Fe0.24 alloy was… read more here.
Keywords: alloy; 36al0 10cu0; inert anode; ni0 36al0 ... See more keywords
Electrochemical growth of a corrosion-resistant multi-layer scale to enable an oxygen-evolution inert anode in molten carbonate
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DOI: 10.1016/j.electacta.2018.05.095
Abstract: Abstract An in-situ formed three-layered scale consisting of a Cu-rich layer and two oxide layers on the surface of Ni10Cu11Fe alloy enables an inert anode for oxygen evolution reaction in molten Na 2 CO 3… read more here.
Keywords: oxygen evolution; layer; scale; inert anode ... See more keywords
Electrochemical Behavior of Fe-Ni Alloys as an Inert Anode for Aluminum Electrolysis
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DOI: 10.20964/2019.07.42
Abstract: Fe-Ni alloys have been regarded as promising candidates for inert anodes of aluminum electrolysis. In this study, a binary Fe–Ni alloy with 32 wt% Ni content was tested as an inert anode, and its high… read more here.
Keywords: electrochemical behavior; oxidation; aluminum electrolysis; inert anode ... See more keywords