Time Dependent Accumulation of Hydrogen on Nickel Foils

Time Dependent Accumulation of Hydrogen on Nickel Foils

As part of our investigation into the production of large area hydrogen free surfaces, we have studied the effectiveness of in vacuo (10-6 torr) high temperature (103 °C) heating of various materials suitable for use in ultra-cold neutron containers. Foils of the materials were resistively heated an...

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Bibliographic Details
Published in:IEEE transactions on nuclear science Vol. 28; no. 2; pp. 1845 - 1847
Main Authors: La Marche, Paul H., Lanford, William A., Rauch, Friedel
Format: Journal Article
Language:English
Published: IEEE 01-01-1981
Subjects:
Containers
Heating
Hydrogen
Neutrons
Nickel
Nuclear measurements
Production
Surface cleaning
Temperature
Time measurement
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Summary:As part of our investigation into the production of large area hydrogen free surfaces, we have studied the effectiveness of in vacuo (10-6 torr) high temperature (103 °C) heating of various materials suitable for use in ultra-cold neutron containers. Foils of the materials were resistively heated and subsequently measured for surface hydrogen concentration, using a nuclear resonant reaction technique, as a function of time. We were sucessful in cleaning the materials of hydrogen and several foils, for which we were able to heat to the point of evaporating their surface, remained relatively clean for several hours. For nickel we found that this slow recontamination rate is independent of foil length and inversely proportional to thickness. We conclude that hydrogen incident upon the cleaned material can stick to the surface and then diffuse into the interior and is probably resident on the internal grain boundary surfaces.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.1981.4331536