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Metallurgist

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01-05-2015

Effect of Accelerated Cooling Parameters on Microstructure and Hydrogen Cracking Resistance of Low-Alloy Pipe Steels

Authors: Yu. I. Matrosov, A. A. Kholodnyi, M. Yu. Matrosov, E. S. Popov, G. N. Konovalov, S. V. Sosin

Published in: Metallurgist | Issue 1-2/2015

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Abstract

The effect of accelerated cooling parameters on microstructure and hydrogen initiated cracking (HIC) is studied for thick-walled low-alloy steels of strength categories X52–X65 used for manufacturing large diameter pipes intended for operation in hydrogen sulfide media. Optimum accelerated cooling regimes are determined providing formation of a ferrite-bainite microstructure throughout the rolled product’s thickness, exhibiting improved hydrogen cracking resistance.

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Yu. I. Matrosov, A. A. Kholodnyi, E. S. Popov, et al., “Effect of deformation and heat treatment regimes for pipe steel on microstructure formation and hydrogen cracking resistance (HIC),” Probl. Chern. Metal. Materialoved., No. 1, 65–74 (2014).

10.

Yu. I. Matrosov, I. V. Lyasotskii, A. A, Kachkina, et al., “Features and classification of low-carbon low-alloy high-strength pipe steel structure,” Stal, No. 1, 65–74 (2012).

Title: Effect of Accelerated Cooling Parameters on Microstructure and Hydrogen Cracking Resistance of Low-Alloy Pipe Steels
Authors: Yu. I. Matrosov
A. A. Kholodnyi
M. Yu. Matrosov
E. S. Popov
G. N. Konovalov
S. V. Sosin
Publication date: 01-05-2015
Publisher: Springer US
Published in: Metallurgist / Issue 1-2/2015
Print ISSN: 0026-0894
Electronic ISSN: 1573-8892
DOI: https://doi.org/10.1007/s11015-015-0061-1

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