Corrosion of Fe alloys in NaNO3-KNO3-NaNO2 at 823 K

C. M. Kramer; W. H. Smyrl; W. B. Estill

doi:10.1007/BF02833362

Corrosion of Fe alloys in NaNO₃-KNO₃-NaNO₂ at 823 K

C. M. Kramer, W. H. Smyrl, W. B. Estill

Chemical Engineering and Materials Science

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Abstract

In support of advanced solar central receiver programs, six commercially available, iron-based construction materials were exposed to a molten NaNO₂-NaNO₃-KNO₃ salt mixture at 823 K for periods up to six months. After one month of exposure, oxide coatings formed on each alloy;the amount of oxidation ranged from 10 mg/cm² for low carbon steel to ∼0.7 mg/cm² for 310 stainless steel. The low-Cr alloys tended to blister and spall but the stainless steels were much more corrosion resistant. Analysis of the oxide surface of a 5 pct chrome alloy clearly indicated a chromium enriched layer was present at the oxide/metal interface and an iron oxide rich layer at the oxide/nitrate interface.

Original language	English (US)
Pages (from-to)	59-65
Number of pages	7
Journal	Journal of Materials for Energy Systems
Volume	1
Issue number	4
DOIs	https://doi.org/10.1007/BF02833362
State	Published - Mar 1980

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abstract = "In support of advanced solar central receiver programs, six commercially available, iron-based construction materials were exposed to a molten NaNO2-NaNO3-KNO3 salt mixture at 823 K for periods up to six months. After one month of exposure, oxide coatings formed on each alloy;the amount of oxidation ranged from 10 mg/cm 2 for low carbon steel to ∼0.7 mg/cm2 for 310 stainless steel. The low-Cr alloys tended to blister and spall but the stainless steels were much more corrosion resistant. Analysis of the oxide surface of a 5 pct chrome alloy clearly indicated a chromium enriched layer was present at the oxide/metal interface and an iron oxide rich layer at the oxide/nitrate interface.",

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N2 - In support of advanced solar central receiver programs, six commercially available, iron-based construction materials were exposed to a molten NaNO2-NaNO3-KNO3 salt mixture at 823 K for periods up to six months. After one month of exposure, oxide coatings formed on each alloy;the amount of oxidation ranged from 10 mg/cm 2 for low carbon steel to ∼0.7 mg/cm2 for 310 stainless steel. The low-Cr alloys tended to blister and spall but the stainless steels were much more corrosion resistant. Analysis of the oxide surface of a 5 pct chrome alloy clearly indicated a chromium enriched layer was present at the oxide/metal interface and an iron oxide rich layer at the oxide/nitrate interface.

AB - In support of advanced solar central receiver programs, six commercially available, iron-based construction materials were exposed to a molten NaNO2-NaNO3-KNO3 salt mixture at 823 K for periods up to six months. After one month of exposure, oxide coatings formed on each alloy;the amount of oxidation ranged from 10 mg/cm 2 for low carbon steel to ∼0.7 mg/cm2 for 310 stainless steel. The low-Cr alloys tended to blister and spall but the stainless steels were much more corrosion resistant. Analysis of the oxide surface of a 5 pct chrome alloy clearly indicated a chromium enriched layer was present at the oxide/metal interface and an iron oxide rich layer at the oxide/nitrate interface.

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Corrosion of Fe alloys in NaNO₃-KNO₃-NaNO₂ at 823 K

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