Litcius/Paper detail

Corrosion-induced microstructure degradation of copper in sulfide-containing simulated anoxic groundwater studied by synchrotron high-energy X-ray diffraction and ab-initio density functional theory calculation

Fan Zhang, Cem Örnek, Min Liu, Timo Müller, Ulrich Lienert, Vilma Ratia, Leena Carpén, Elisa Isotahdon, Jinshan Pan

2021Corrosion Science28 citationsDOIOpen Access PDF

Abstract

Synchrotron high-energy XRD measurements and ab-initio DFT calculations were employed to investigate microstructural degradation of copper upon exposure to sulfide-containing anoxic groundwater simulating nuclear waste repository. After two-month exposure, the high-energy XRD measurements revealed heterogeneous lattice deformation in the microstructure and lattice expansion in near-surface regions. The DFT calculations show that sulfur promotes hydrogen adsorption on copper. Water causes surface reconstruction and promotes hydrogen insertion into the microstructure, occurring via interstitial sites next to vacancies leading to lattice dilation and metal bond weakening. Hydrogen infusion in the presence of sulfur caused lattice degradation, indicating a risk for H-induced cracking.

Topics & Concepts

Density functional theoryMicrostructureMaterials scienceAb initioHydrogenCopperHydrogen sulfideHydrogen embrittlementCorrosionMetallurgyChemistrySulfurComputational chemistryOrganic chemistryCorrosion Behavior and InhibitionHydrogen embrittlement and corrosion behaviors in metalsHigh-Temperature Coating Behaviors