Insights into the role of H2O2 on corrosion behavior of NiCu low alloy steel in simulated Beishan groundwater

Insights into the role of H2O2 on corrosion behavior of NiCu low alloy steel in simulated Beishan groundwater

Steel containers used for geological disposal of high-level radioactive waste will be gradually thinned or even perforated due to corrosion, which will lead to radiolysis of nuclides when they contact with infiltrated groundwater and produce H2O2. This work focused on investigating the influence of...

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Bibliographic Details
Published in:Journal of materials research and technology Vol. 30; pp. 8972 - 8985
Main Authors: Sun, Yupeng, Wei, Xin, Dong, Junhua, Li, Dongyun, Zhao, Hanyu, Chen, Nan, Yin, Qili, Ren, Qiying, Ke, Wei
Format: Journal Article
Language:English
Published: Elsevier B.V 01-05-2024
Elsevier
Subjects:
Corrosion behavior
Geological disposal of HLW
Groundwater
H2O2
Low alloy steel
Geological disposal of HLW
Groundwater
H2O2
Low alloy steel
Corrosion behavior
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Summary:Steel containers used for geological disposal of high-level radioactive waste will be gradually thinned or even perforated due to corrosion, which will lead to radiolysis of nuclides when they contact with infiltrated groundwater and produce H2O2. This work focused on investigating the influence of H2O2 concentration (0%, 0.001%, 0.01%, 0.1% and 1% by volume) on the corrosion behavior of NiCu low alloy steel as the candidate material for containers was comparatively studied by combining corrosion weight loss test, corrosion product analysis, morphology characterization, thermodynamic analysis and electrochemical measurements. As [H2O2] = 0.001%, H2O2 inhibited the formation of γ-FeOOH and enhanced the compactness of rust layer, which effectively blocked the migration of aggressive ions and slowed down the cathodic reduction reaction of rust, thus improving the corrosion resistance of NiCu steel. With the increase of [H2O2] (0.01%→1%), the cathodic process of NiCu steel corrosion was promoted by the increase of dissolved oxygen involved in cathodic depolarization. Meanwhile, the relative content of Fe3O4 in the rust increased, while Fe6(OH)12SO4 and Fe6(OH)12CO3 decreased obviously, which led to the loose and porous rust layer, thus accelerating the corrosion of NiCu steel.
ISSN:2238-7854
DOI:10.1016/j.jmrt.2024.05.255