The effect of hydrogen on the early stages of oxidation of a magnesium alloy
McCarroll IE, Haley D, Thomas S, Meier M, Bagot PA, Moody MP, Birbilis N, Cairney JM (2019)
Publication Type: Journal article
Publication year: 2019
Journal
Article Number: 108391
DOI: 10.1016/j.corsci.2019.108391
Abstract
The early stage oxidation of germanium-doped magnesium alloys was investigated via atom probe tomography. A catalytic reaction cell attached to a local electrode atom probe allowed controlled exposure of electropolished specimens to oxygen gas. Prior to exposure, some samples were found to be enriched in hydrogen, thought to be introduced during electropolishing. These samples reacted strongly to form sub-surface phases rich in H and O, while samples with less hydrogen did not. These results suggest that hydrogen in the sample plays an important role as a catalyst to oxidation and may affect the hydrogen evolution rate in Mg alloys.
Involved external institutions
University of Sydney (USYD)
Australia (AU)
University of Oxford
United Kingdom (GB)
Monash University
Australia (AU)
Australia (AU)
University of Oxford
United Kingdom (GB)
Monash University
Australia (AU)
How to cite
APA:
McCarroll, I.E., Haley, D., Thomas, S., Meier, M., Bagot, P.A., Moody, M.P.,... Cairney, J.M. (2019). The effect of hydrogen on the early stages of oxidation of a magnesium alloy. Corrosion Science. https://dx.doi.org/10.1016/j.corsci.2019.108391
MLA:
McCarroll, I. E., et al. "The effect of hydrogen on the early stages of oxidation of a magnesium alloy." Corrosion Science (2019).
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