Accumulation properties of hydrogen atmosphere in solids; 1-st International Congress on Radiation Physics, High Current Electronics, and Modification of Materials; Vol. 1: 11-th International Conference on Radiation Physics and Chemistry of Condensed Matter

Accumulation properties of hydrogen atmosphere in solids

Bibliographic Details
Parent link:1-st International Congress on Radiation Physics, High Current Electronics, and Modification of Materials: proceedings, Tomsk, Russia, 24-29 September 2000/ Tomsk Polytechnic University (TPU).— , 2000
Vol. 1: 11-th International Conference on Radiation Physics and Chemistry of Condensed Matter.— 2000.— P. 257-262
Other Authors: Tyurin Yu. I. Yuri Ivanovich, Chernov I. P. Ivan Petrovich, Smekalina T. V., Kroning M., Baumbach I.
Summary:Deuterium release from niobium, palladium and stainless steel is substantially increased by accelerated electrons and X-rays. The tested material is heated linearly from 20 to 500 °C and simultaneously exposed to the accelerated electron radiation, leading to a considerable shift of the deuterium release maximum to a low temperature region. The release rate increases superlinearly to the beam current. Deuterium release stimulated by an electron beam with a relatively small cross-section occurs from the whole volume of the sample. The enhanced hydrogen release from the investigated metals under a radiation is interpreted as excitation of non-equilibrium oscillations of hydrogen subsystem in the metals.
Language:English
Published: 2000
Subjects:
труды учёных ТПУ
Format: Book Chapter
KOHA link:https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=231595
Description
Summary:Deuterium release from niobium, palladium and stainless steel is substantially increased by accelerated electrons and X-rays. The tested material is heated linearly from 20 to 500 °C and simultaneously exposed to the accelerated electron radiation, leading to a considerable shift of the deuterium release maximum to a low temperature region. The release rate increases superlinearly to the beam current. Deuterium release stimulated by an electron beam with a relatively small cross-section occurs from the whole volume of the sample. The enhanced hydrogen release from the investigated metals under a radiation is interpreted as excitation of non-equilibrium oscillations of hydrogen subsystem in the metals.

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