Standard

Solubility of gases in uniaxially strained crystals. / Volkov, V. A.; Masharov, G. s.; Masharov, S. i.
в: Technical Physics, Том 49, № 4, 01.04.2004, стр. 409-412.

Результаты исследований: Вклад в журналСтатьяРецензирование

Harvard

Volkov, VA, Masharov, GS & Masharov, SI 2004, 'Solubility of gases in uniaxially strained crystals', Technical Physics, Том. 49, № 4, стр. 409-412. https://doi.org/10.1134/1.1736906

APA

Volkov, V. A., Masharov, G. S., & Masharov, S. I. (2004). Solubility of gases in uniaxially strained crystals. Technical Physics, 49(4), 409-412. https://doi.org/10.1134/1.1736906

Vancouver

Volkov VA, Masharov GS, Masharov SI. Solubility of gases in uniaxially strained crystals. Technical Physics. 2004 апр. 1;49(4):409-412. doi: 10.1134/1.1736906

Author

Volkov, V. A. ; Masharov, G. s. ; Masharov, S. i. / Solubility of gases in uniaxially strained crystals. в: Technical Physics. 2004 ; Том 49, № 4. стр. 409-412.

BibTeX

@article{f096e351c05e4cc49c494eefa2e6056a,
title = "Solubility of gases in uniaxially strained crystals",
abstract = "The solubility of gases in uniformly strained bcc crystals is calculated. As a result of straining, interstices occupied by interstitial atoms become nonequivalent and the temperature dependence of the solubility changes. The effect of deformation depends substantially on the sign of energy of interaction v(AC) between dissolved atoms and host-crystal atoms. For elastic uniaxial tension, the solubility decreases linearly with strain at v(AC) > 0; at v(AC) < 0, it increases with strain. The amount of this effect is 1-10%. The effect of complexes consisting of two nearest dissolved atoms is studied. Conditions at which the role of the complexes is substantial are found. The complexes increase the solubility and change its dependence on the gas pressure. (C) 2004 MAIK {"}Nauka / Interperiodica{"}.",
author = "Volkov, {V. A.} and Masharov, {G. s.} and Masharov, {S. i.}",
year = "2004",
month = apr,
day = "1",
doi = "10.1134/1.1736906",
language = "English",
volume = "49",
pages = "409--412",
journal = "Technical Physics",
issn = "1063-7842",
publisher = "American Institute of Physics Publising LLC",
number = "4",

}

RIS

TY - JOUR

T1 - Solubility of gases in uniaxially strained crystals

AU - Volkov, V. A.

AU - Masharov, G. s.

AU - Masharov, S. i.

PY - 2004/4/1

Y1 - 2004/4/1

N2 - The solubility of gases in uniformly strained bcc crystals is calculated. As a result of straining, interstices occupied by interstitial atoms become nonequivalent and the temperature dependence of the solubility changes. The effect of deformation depends substantially on the sign of energy of interaction v(AC) between dissolved atoms and host-crystal atoms. For elastic uniaxial tension, the solubility decreases linearly with strain at v(AC) > 0; at v(AC) < 0, it increases with strain. The amount of this effect is 1-10%. The effect of complexes consisting of two nearest dissolved atoms is studied. Conditions at which the role of the complexes is substantial are found. The complexes increase the solubility and change its dependence on the gas pressure. (C) 2004 MAIK "Nauka / Interperiodica".

AB - The solubility of gases in uniformly strained bcc crystals is calculated. As a result of straining, interstices occupied by interstitial atoms become nonequivalent and the temperature dependence of the solubility changes. The effect of deformation depends substantially on the sign of energy of interaction v(AC) between dissolved atoms and host-crystal atoms. For elastic uniaxial tension, the solubility decreases linearly with strain at v(AC) > 0; at v(AC) < 0, it increases with strain. The amount of this effect is 1-10%. The effect of complexes consisting of two nearest dissolved atoms is studied. Conditions at which the role of the complexes is substantial are found. The complexes increase the solubility and change its dependence on the gas pressure. (C) 2004 MAIK "Nauka / Interperiodica".

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U2 - 10.1134/1.1736906

DO - 10.1134/1.1736906

M3 - Article

VL - 49

SP - 409

EP - 412

JO - Technical Physics

JF - Technical Physics

SN - 1063-7842

IS - 4

ER -

ID: 43126658