High-Temperature Corrosion Behavior of Al-Coated Ni-Base Alloys in Lithium Molten Salt for Electroreduction

Kim, Wan-Bae; Choi, Woo-Seok; Lim, Kyu-Seok; Cho, Soo-Haeng; Lee, Sang-Kwon

doi:10.3390/coatings11030328

Cited by 8 publications

(5 citation statements)

References 53 publications

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“…These reactions are favored by the basic character of the molten salt (high concentration of oxide ion, O 2− ) whose reaction product is soluble in the melt and can precipitate as a porous layer on the surface of the alloy [ 33 ]. The formation of Na 2 CrO 4 and K 2 CrO 4 is favored with increasing temperature; therefore, the corrosion resistance of the alloy could be diminished as its formation depletes the Cr content of the protective layer [ 33 , 34 ]. Recent studies [ 12 ] have shown that Solar Salt dissolves pure Cr by similar reactions.…”

Section: Resultsmentioning

confidence: 99%

Behavior of Ni20Cr Alloy in Molten Nitrate Salts

Gomez-Guzman

Lopez-Dominguez

Arrieta-González

et al. 2022

IJMS

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This study reports the behavior of the Ni20Cr alloy in molten nitrate salts. Its behavior was evaluated in the eutectic mixture called Solar Salt (binary salt) and in a ternary mixture (90% Solar Salt and 10% lanthanum nitrate). The addition of lanthanum nitrate was performed to determine if the presence of the La3+ cation could act as a corrosion inhibitor. Through mass loss and potentiodynamic polarization studies, the effects of both electrolytes on the corrosion resistance of the alloy at 300, 400, and 500 °C and at exposure times of 250, 500, 750, and 1000 h were determined. The results showed an increase in the corrosivity of the ternary salt, due to a decrease in its melting point and an increase in the concentration of nitrate ions. However, it was observed that the La3+ cations formed a protective layer (La2O3) on the alloy surface. In both corrosive media, the Ni20Cr alloy showed excellent corrosion resistance, due to its ability to form protective layers of Cr2O3, NiO, and NiCr2O4, in addition to the presence of a layer of La2O3 in the case of the ternary salt.

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Section: Resultsmentioning

confidence: 99%

Behavior of Ni20Cr Alloy in Molten Nitrate Salts

Gomez-Guzman

Lopez-Dominguez

Arrieta-González

et al. 2022

IJMS

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“…22 Specifically, during the electrolytic reduction of spent oxide nuclear fuel in a molten lithium salt system containing highly corrosive and strongly basic Li 2 O, the oxygen generated at the anode and resulting high-temperature molten lithium salt can lead to a chemically aggressive environment, which is excessively corrosive for ordinary structural materials. 2,[24][25][26][27][28] Hence, studies on the hot corrosion of Ni-base alloys, which are used to fabricate the equipment related to the handling of high-temperature molten salts owing to their excellent resistance to corrosion at elevated temperatures, [29][30][31][32][33][34][35] have been conducted. In addition, long-term corrosion resistance is an important parameter, which is used to determine the suitability of structural materials requiring continuous exposure to high-temperature molten salts.…”

Section: Introductionmentioning

confidence: 99%

“…Few reports on the high-temperature corrosion behaviours of Ni-base alloys in a LiCl-Li 2 O molten salt are available. [24][25][26][27][28] According to these reports, in addition to the formation, maintenance and spalling of the external corrosion layer and the shape and growth of the internal corrosion layer, the depletion region of major alloying elements formed beneath the corrosion layer has a significant effect on the weight loss of the alloy. Many alloys for hightemperature applications are based on Ni and/or Co due to their better corrosion resistance and rely on the formation of Cr 2 O 3 layers for protection against corrosion.…”

Section: Introductionmentioning

confidence: 99%

Effect of reaction temperature on the corrosion behaviour of Inconel alloys in lithium molten salt under an oxidising atmosphere

Choi,

Lim,

Kim

et al. 2024

Corrosion Engineering, Science and Technology: The Internationa

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The effect of temperature on the corrosion behaviour of Inconel alloys employed for the electroreduction of metal oxides to metals in a lithium molten salt was investigated. The ratio of the weight loss of Inconel 601 and 690 to that of Inconel 600, Inconel 601 and 690 was approximately four and six at 650 °C, and five and eight times higher than that of Inconel 600 above 750 °C for 72 h, respectively. The corrosion products of all the alloys tested at 650 °C and 750 °C for 72 h were mainly Cr2O3 and FeCr2O4; however, only Cr2O3 was obtained when Inconel 690 was corroded at 750 °C or higher. Additionally, an alloy with a composition of max. 16.3 wt.% Cr, min. 73.66 wt.% Ni and well below 8.15 wt.% Fe was expected to exhibit excellent corrosion resistance in a lithium molten salt system at 650–850 °C.

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“…During the electrolytic reduction of spent oxide nuclear fuel in molten lithium salts, the oxygen generated at the anode and the hot strongly basic lithium oxide make ordinary structural materials highly susceptible to corrosion [6, [31][32][33][34][35]. Therefore, a suitable structural material is required to handle the molten salts during the electrolytic reduction of the spent oxide nuclear fuel.…”

Section: Introductionmentioning

confidence: 99%

“…However, there have been only a few studies on the hot corrosion behavior of Ni-base alloys in molten LiCl-Li 2 O salts [31][32][33][34][35]. According to these studies, the formation, maintenance, and spalling of the external corrosion layer and the shape and growth of the internal corrosion layer as well as the depletion of the major alloying elements beneath the corrosion layer signi cantly affect the weight loss of the alloy.…”

Section: Introductionmentioning

confidence: 99%

Effect of Cr Content on Hot Corrosion Behavior of Inconel Alloys in Molten LiCl–Li2O

Lim,

Choi,

Kim

et al. 2023

High Temperature Corrosion of mater.

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The hot corrosion behaviors of Inconel alloys with different Cr contents (Inconel 600, 601, and 690), which are used widely in nuclear plants, were investigated in molten LiCl-Li 2 O salts. The hot corrosion behaviors were studied by measuring the mass and attack depth changes, surface and cross-sectional morphologies and elemental distributions, and compositional changes at the subscale and substrate scale as well as the spalled oxide scale. At 288 h, the weight losses of Inconel 601 and Inconel 690 were approximately four and twelve times higher, respectively, than that of Inconel 600. The corrosion products of all tested alloys were Cr 2 O 3 , NiO, and FeCr 2 O 4 . Inconel 600, which exhibited a dense and continuous external corrosion layer and an internal corrosion layer with localized corrosion behavior, exhibited superior corrosion resistance compared with those of Inconel 601 and 690, which showed a spalled external corrosion layer and an internal corrosion layer with uniform corrosion behavior. Thus, the corrosion resistance of the Inconel alloys tested in the hot lithium molten salts in an oxidizing atmosphere is closely related to the contents of the primary alloying elements in the alloys. Of the various

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High-Temperature Corrosion Behavior of Al-Coated Ni-Base Alloys in Lithium Molten Salt for Electroreduction

Cited by 8 publications

References 53 publications

Behavior of Ni20Cr Alloy in Molten Nitrate Salts

Behavior of Ni20Cr Alloy in Molten Nitrate Salts

Effect of reaction temperature on the corrosion behaviour of Inconel alloys in lithium molten salt under an oxidising atmosphere

Effect of Cr Content on Hot Corrosion Behavior of Inconel Alloys in Molten LiCl–Li2O

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