Influence of internal uniform corrosion on stability loss of a thin-walled spherical shell subjected to external pressure

E. M. Gutman; R. M. Bergman; S. P. Levitsky

doi:10.1016/j.corsci.2016.04.018

Influence of internal uniform corrosion on stability loss of a thin-walled spherical shell subjected to external pressure

E. M. Gutman, R. M. Bergman, S. P. Levitsky

Department of Materials Engineering

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

Stability loss of a thin-walled spherical shell, subjected to external pressure and internal corrosion, is studied. The critical time of stability loss of the shell is found by combining the upper critical load value for static stability loss of the shell without corrosion, and the corrosion rate law. Numerical results, obtained for carbon steel shells with different wall thickness at different temperatures and corrosion activation energy values, indicate that increase in the safety coefficient for stability yields reduction of the relative durability. Temperature growth leads to corrosion rate increase and yields reduction of the vessel “life-time”. The value of activation energy of corrosion has great impact on the vessel critical time t^∗ − the less is this parameter the less is the critical time.

Original language	English
Pages (from-to)	212-215
Number of pages	4
Journal	Corrosion Science
Volume	111
DOIs	https://doi.org/10.1016/j.corsci.2016.04.018
State	Published - 1 Oct 2016

Keywords

A. Steel
C. High temperature corrosion
C. Stress corrosion

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering
General Materials Science

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10.1016/j.corsci.2016.04.018

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title = "Influence of internal uniform corrosion on stability loss of a thin-walled spherical shell subjected to external pressure",

abstract = "Stability loss of a thin-walled spherical shell, subjected to external pressure and internal corrosion, is studied. The critical time of stability loss of the shell is found by combining the upper critical load value for static stability loss of the shell without corrosion, and the corrosion rate law. Numerical results, obtained for carbon steel shells with different wall thickness at different temperatures and corrosion activation energy values, indicate that increase in the safety coefficient for stability yields reduction of the relative durability. Temperature growth leads to corrosion rate increase and yields reduction of the vessel “life-time”. The value of activation energy of corrosion has great impact on the vessel critical time t∗ − the less is this parameter the less is the critical time.",

keywords = "A. Steel, C. High temperature corrosion, C. Stress corrosion",

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T1 - Influence of internal uniform corrosion on stability loss of a thin-walled spherical shell subjected to external pressure

AU - Gutman, E. M.

AU - Bergman, R. M.

AU - Levitsky, S. P.

PY - 2016/10/1

Y1 - 2016/10/1

N2 - Stability loss of a thin-walled spherical shell, subjected to external pressure and internal corrosion, is studied. The critical time of stability loss of the shell is found by combining the upper critical load value for static stability loss of the shell without corrosion, and the corrosion rate law. Numerical results, obtained for carbon steel shells with different wall thickness at different temperatures and corrosion activation energy values, indicate that increase in the safety coefficient for stability yields reduction of the relative durability. Temperature growth leads to corrosion rate increase and yields reduction of the vessel “life-time”. The value of activation energy of corrosion has great impact on the vessel critical time t∗ − the less is this parameter the less is the critical time.

AB - Stability loss of a thin-walled spherical shell, subjected to external pressure and internal corrosion, is studied. The critical time of stability loss of the shell is found by combining the upper critical load value for static stability loss of the shell without corrosion, and the corrosion rate law. Numerical results, obtained for carbon steel shells with different wall thickness at different temperatures and corrosion activation energy values, indicate that increase in the safety coefficient for stability yields reduction of the relative durability. Temperature growth leads to corrosion rate increase and yields reduction of the vessel “life-time”. The value of activation energy of corrosion has great impact on the vessel critical time t∗ − the less is this parameter the less is the critical time.

KW - A. Steel

KW - C. High temperature corrosion

KW - C. Stress corrosion

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JO - Corrosion Science

JF - Corrosion Science

ER -

Influence of internal uniform corrosion on stability loss of a thin-walled spherical shell subjected to external pressure

Abstract

Keywords

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