Direct observation of hydrogen and deuterium in oxide grain boundaries in corroded Zirconium alloys
Journal article, 2015
Atom probe tomography has been used to the study the distribution of hydrogen and deuterium in the oxide scale of two common zirconium alloys after autoclave testing in H2O and D2O, respectively. Comparison between hydrogen and deuterium in the mass spectra allows for separation of hydrogen as a corrosion product from adsorbed H2 gas from the vacuum chamber. Enrichment of hydrogen and deuterium, as OH+ and OD+, was observed in grain boundaries. The grain boundaries were identified through segregation of iron. This lends experimental support to existing theories for the mechanism of hydrogen pick-up in zirconium alloys.
Atom probe
Zirconium alloys
Grain boundaries
Hydrogen pick-up
Deuterium
Corrosion
Author
Gustav Sundell
Chalmers, Applied Physics, Materials Microstructure
Mattias Thuvander
Chalmers, Applied Physics, Materials Microstructure
A K Yatim
Rheinisch-Westfalische Technische Hochschule Aachen
H Nordin
Atomic Energy of Canada Limited - Chalk River Lab
Hans-Olof Andrén
Chalmers, Applied Physics, Materials Microstructure
Corrosion Science
0010-938X (ISSN)
Vol. 90 1-4Areas of Advance
Energy
Materials Science
Subject Categories (SSIF 2011)
Other Materials Engineering
Corrosion Engineering
DOI
10.1016/j.corsci.2014.10.016