Hydrogen migration in metals under the combined action of acoustic and ionizing radiation

Abstract

The hydrogen migration in metals under the action of ionizing and acoustic radiation is considered. The joint action of ionizing and acoustic radiation is found to enhance the hydrogen migration in metals ("interference" effect). The hydrogen transport mechanism is determined by the interaction of ionizing radiation with the hydrogen subsystem of a metal and a vibrodiffusion effect.

Original language	English
Pages (from-to)	1630-1634
Number of pages	5
Journal	Technical Physics
Volume	56
Issue number	11
DOIs	https://doi.org/10.1134/S1063784211110168
Publication status	Published - Nov 2011

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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10.1134/S1063784211110168

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title = "Hydrogen migration in metals under the combined action of acoustic and ionizing radiation",

abstract = "The hydrogen migration in metals under the action of ionizing and acoustic radiation is considered. The joint action of ionizing and acoustic radiation is found to enhance the hydrogen migration in metals ({"}interference{"} effect). The hydrogen transport mechanism is determined by the interaction of ionizing radiation with the hydrogen subsystem of a metal and a vibrodiffusion effect.",

author = "Lider, {A. M.} and Kroening, {Hans Michael} and Larionov, {V. V.} and Garanin, {G. V.}",

year = "2011",

month = nov,

doi = "10.1134/S1063784211110168",

language = "English",

volume = "56",

pages = "1630--1634",

journal = "Technical Physics",

issn = "1063-7842",

publisher = "Maik Nauka-Interperiodica Publishing",

number = "11",

}

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AU - Lider, A. M.

AU - Kroening, Hans Michael

AU - Larionov, V. V.

AU - Garanin, G. V.

PY - 2011/11

Y1 - 2011/11

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AB - The hydrogen migration in metals under the action of ionizing and acoustic radiation is considered. The joint action of ionizing and acoustic radiation is found to enhance the hydrogen migration in metals ("interference" effect). The hydrogen transport mechanism is determined by the interaction of ionizing radiation with the hydrogen subsystem of a metal and a vibrodiffusion effect.

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DO - 10.1134/S1063784211110168

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JO - Technical Physics

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