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Stresses in pipeline affected by hydrogen. / Belyaev, A.K.; Polynskiy, V.A.; Yakovlev, Yu.A.

Stresses in pipeline affected by hydrogen. Springer Nature, 2012.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийстатья в сборникенаучная

Harvard

Belyaev, AK, Polynskiy, VA & Yakovlev, YA 2012, Stresses in pipeline affected by hydrogen. в Stresses in pipeline affected by hydrogen. Springer Nature.

APA

Belyaev, A. K., Polynskiy, V. A., & Yakovlev, Y. A. (2012). Stresses in pipeline affected by hydrogen. в Stresses in pipeline affected by hydrogen Springer Nature.

Vancouver

Belyaev AK, Polynskiy VA, Yakovlev YA. Stresses in pipeline affected by hydrogen. в Stresses in pipeline affected by hydrogen. Springer Nature. 2012

Author

Belyaev, A.K. ; Polynskiy, V.A. ; Yakovlev, Yu.A. / Stresses in pipeline affected by hydrogen. Stresses in pipeline affected by hydrogen. Springer Nature, 2012.

BibTeX

@inbook{a752a2a3aef3492b8d61070626d08def,
title = "Stresses in pipeline affected by hydrogen",
abstract = "A model is suggested which allows one to describe the influence of hydrogen on the stresses in structural materials. The two-dimensional problem of plane elasticity was solved on example of a hollow pipe under internal pressure. Analysis of the stress distribution in the pipe suggests that the radial stress is not considerably affected by hydrogen since the radial stresses are compressive whereas the hydrogen moves to the domains of tensile stresses. The effect of the hydrogen on the hoop stress is essential, namely, the effect of the hydrogen presence (difference between the stresses in the hydrogen-affected material and virgin material) is comparable with and even exceeds the original hoop stress. This effect is especially considerable in the neighborhood of loading. This effect often encounters during the exploitation of gas and oil pipelines since the transported medium is full of hydrogen. The hoop stress is tensile which results in essential influence of the hydrogen on the stress field. Despite the fac",
author = "A.K. Belyaev and V.A. Polynskiy and Yu.A. Yakovlev",
year = "2012",
language = "English",
booktitle = "Stresses in pipeline affected by hydrogen",
publisher = "Springer Nature",
address = "Germany",

}

RIS

TY - CHAP

T1 - Stresses in pipeline affected by hydrogen

AU - Belyaev, A.K.

AU - Polynskiy, V.A.

AU - Yakovlev, Yu.A.

PY - 2012

Y1 - 2012

N2 - A model is suggested which allows one to describe the influence of hydrogen on the stresses in structural materials. The two-dimensional problem of plane elasticity was solved on example of a hollow pipe under internal pressure. Analysis of the stress distribution in the pipe suggests that the radial stress is not considerably affected by hydrogen since the radial stresses are compressive whereas the hydrogen moves to the domains of tensile stresses. The effect of the hydrogen on the hoop stress is essential, namely, the effect of the hydrogen presence (difference between the stresses in the hydrogen-affected material and virgin material) is comparable with and even exceeds the original hoop stress. This effect is especially considerable in the neighborhood of loading. This effect often encounters during the exploitation of gas and oil pipelines since the transported medium is full of hydrogen. The hoop stress is tensile which results in essential influence of the hydrogen on the stress field. Despite the fac

AB - A model is suggested which allows one to describe the influence of hydrogen on the stresses in structural materials. The two-dimensional problem of plane elasticity was solved on example of a hollow pipe under internal pressure. Analysis of the stress distribution in the pipe suggests that the radial stress is not considerably affected by hydrogen since the radial stresses are compressive whereas the hydrogen moves to the domains of tensile stresses. The effect of the hydrogen on the hoop stress is essential, namely, the effect of the hydrogen presence (difference between the stresses in the hydrogen-affected material and virgin material) is comparable with and even exceeds the original hoop stress. This effect is especially considerable in the neighborhood of loading. This effect often encounters during the exploitation of gas and oil pipelines since the transported medium is full of hydrogen. The hoop stress is tensile which results in essential influence of the hydrogen on the stress field. Despite the fac

M3 - Article in an anthology

BT - Stresses in pipeline affected by hydrogen

PB - Springer Nature

ER -

ID: 4731220