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Evidence of hydrogen trapping at second phase particles in zirconium alloys

Christopher Jones, Vidur Tuli, Zaheen Shah, Mhairi Gass, Patrick A. Burr, Michael Preuß, Katie L. Moore

2021Scientific Reports28 citationsDOIOpen Access PDF

Abstract

Abstract Zirconium alloys are used in safety–critical roles in the nuclear industry and their degradation due to ingress of hydrogen in service is a concern. In this work experimental evidence, supported by density functional theory modelling, shows that the α-Zr matrix surrounding second phase particles acts as a trapping site for hydrogen, which has not been previously reported in zirconium. This is unaccounted for in current models of hydrogen behaviour in Zr alloys and as such could impact development of these models. Zircaloy-2 and Zircaloy-4 samples were corroded at 350 °C in simulated pressurised water reactor coolant before being isotopically spiked with 2 H 2 O in a second autoclave step. The distribution of 2 H, Fe and Cr was characterised using nanoscale secondary ion mass spectrometry (NanoSIMS) and high-resolution energy dispersive X-ray spectroscopy. 2 H − was found to be concentrated around second phase particles in the α-Zr lattice with peak hydrogen isotope ratios of 2 H/ 1 H = 0.018–0.082. DFT modelling confirms that the hydrogen thermodynamically favours sitting in the surrounding zirconium matrix rather than within the second phase particles. Knowledge of this trapping mechanism will inform the development of current understanding of zirconium alloy degradation through-life.

Topics & Concepts

ZirconiumZirconium alloyMaterials scienceHydrogenAlloyHydrogen productionMetallurgyAnalytical Chemistry (journal)ChemistryChromatographyOrganic chemistryNuclear Materials and PropertiesFusion materials and technologiesNuclear reactor physics and engineering
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