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Corrosion behavior of pure copper as a material for high-level radioactive waste in simulated groundwater environments

Tianyu Wang, Shugang Zhang, Ini‐Ibehe Nabuk Etim, Chengtao Li, Huiling Zhou, Zhilin Chen, Yanxin Qiao, Yunhao Zhang, Lili Zhang, Yunze Xu

2026Journal of Materials Research and Technology9 citationsDOIOpen Access PDF

Abstract

With the increasing utilization of nuclear energy, the safe disposal of nuclear waste has become a major concern. This study investigates the corrosion behavior of two types of pure copper (Cu) with different processing states in simulated Beishan groundwater by electrochemical tests, mass change measurements, and micro morphology observations. The results show that the two types of copper differ in mechanical properties and microstructure due to their different processing histories. Polarization curves indicate similar corrosion resistance for both materials, with corrosion rates of 11.59×10 −3 mm/a for A-Cu and 12.03×10 −3 mm/a for B-Cu. Corrosion morphology analysis reveals that although both materials form a protective layer of corrosion products, B-Cu develops a more stable and protective film, while the film on A-Cu tends to locally detachment due to internal stress. EDS analysis shows that the inner layer of the corrosion products mainly consists of copper oxides, while the outer layer is rich in sulfur and chlorine. Raman spectroscopy further indicates that the corrosion products on both materials are similar, composed mainly of Cu 2 O, Cu 2 Cl(OH) 3 , Cu 4 (SO 4 )(OH) 6, and Cu 2 (CO 3 )(OH) 2 .

Topics & Concepts

CorrosionMaterials scienceCopperErosion corrosion of copper water tubesMetallurgyPolarization (electrochemistry)Radioactive wasteMicrostructureLayer (electronics)GroundwaterSulfurElectrochemistryRaman spectroscopySpent nuclear fuelDielectric spectroscopyBarrier layerIntergranular corrosionMetalCorrosion Behavior and InhibitionConcrete Corrosion and DurabilityHydrogen embrittlement and corrosion behaviors in metals
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