Evaluation of crack resistance of carbon and low-alloy structural steels under conditions of hydrogen charging

Fracture of materials caused by hydrogen embrittlement is a very serious problem in the operation of pipelines subjected to the effect of hydrogen charging (hydrosulfide-bearing media, external corrosion cracking under stress, contact with active sulfate-reducing bacteria, etc.). As a rule, this dam...

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Veröffentlicht in:	Metal science and heat treatment 1997-05, Vol.39 (5), p.194-197
Hauptverfasser:	Volgina, N. I., Nasibov, A. G., Ilyukhina, M. V., Pirusskii, M. V.
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloys Bacteria Bacterial corrosion Carbon Crack propagation Fracture mechanics Hydrogen charging Hydrogen embrittlement Metallurgy
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creator	Volgina, N. I. Nasibov, A. G. Ilyukhina, M. V. Pirusskii, M. V.
description	Fracture of materials caused by hydrogen embrittlement is a very serious problem in the operation of pipelines subjected to the effect of hydrogen charging (hydrosulfide-bearing media, external corrosion cracking under stress, contact with active sulfate-reducing bacteria, etc.). As a rule, this damage occurs in the final stage of the process of crack propagation initiated by hydrogen. In order to predict the transition from a subcritical stage to a critical stage of unstable fracture and to calculate the strength characteristics of pipes with cracks of a metallurgical or operational origin we must know the permissible margin of safety with allowance for hydrogen absorption in the operating period.[PUBLICATION ABSTRACT]
doi_str_mv	10.1007/BF02467283
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subjects	Alloys Bacteria Bacterial corrosion Carbon Crack propagation Fracture mechanics Hydrogen charging Hydrogen embrittlement Metallurgy
title	Evaluation of crack resistance of carbon and low-alloy structural steels under conditions of hydrogen charging
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