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Effect of cathodic current density on hydrogen embrittlement susceptibility of X70 steel girth weld in different soil simulation solutions

Quan Liu (Department of R&D Center, PipeChina Beijing Gas Pipeline Co. Ltd., Beijing, China)
Renchao Wei (Department of Hydrogen Embrittlement and Failure Analysis Center, Safetech Research Institute (Beijing) Co., Ltd., Beijing, China)
Qingshan Feng (Department of Production, China Oil and Gas Pipeline Network Corporation, Beijing, China)
Lianshuang Dai (Department of Production, China Oil and Gas Pipeline Network Corporation, Beijing, China)
Xiaotong Huo (Department of Pipeline, PipeChina Beijing Gas Pipeline Co. Ltd., Beijing, China)
Dongying Wang (Department of R&D Center, PipeChina Beijing Gas Pipeline Co. Ltd., Beijing, China)
Zhiwen Yang (Department of Hydrogen Embrittlement and Failure Analysis Center, Safetech Research Institute (Beijing) Co., Ltd., Beijing, China)
Bei Wang (Department of Hydrogen Embrittlement and Failure Analysis Center, Safetech Research Institute (Beijing) Co., Ltd., Beijing, China)
Xiuyun Wang (Department of Hydrogen Embrittlement and Failure Analysis Center, Safetech Research Institute (Beijing) Co., Ltd., Beijing, China)
Chong Wang (Department of R&D Center, PipeChina Beijing Gas Pipeline Co. Ltd., Beijing, China)
Yanjun Wang (Department of R&D Center, PipeChina Beijing Gas Pipeline Co. Ltd., Beijing, China)

Anti-Corrosion Methods and Materials

ISSN: 0003-5599

Article publication date: 18 October 2024

Issue publication date: 30 October 2024

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Abstract

Purpose

In this paper, the authors aim to study the relationship between hydrogen embrittlement (HE) susceptibility and cathodic current density applied on the X70 steel girth welds.

Design/methodology/approach

The HE susceptibility of X70 steel girth welds were investigated through slow strain rate tensile test and observed and analyzed by optical microscope and scanning electron microscope methods.

Findings

The results show that HE susceptibility of X70 girth weld was basically unchanged with increasing of ion concentration while gradually increased and maintain at a specific value with the increase of cathodic current density. As for same ion content, a dense calcareous deposit layer generated on the sample surface in soil simulation solution with Ca2+ and Mg2+ resulted a decreased HE susceptibility while the porous calcareous deposit layer resulted a increased HE susceptibility.

Originality/value

A logistic regression model was established to describe the correlation between HE index and the cathodic current density.

Keywords

Acknowledgements

Author contributions: Quan Liu – Methodology; Renchao Wei, Writing – review & editing; Qingshan Feng, Writing – original draft; Lianshuang Dai, Resources; Xiaotong Huo, Project administration; Dongying Wang, Supervision; Zhiwen Yang, Data curation; Bei Wang, Investigation; Xiuyun Wang, Methodology; Chong Wang, Project administration; Yanjun Wang, Validation.

Declaration of competing interest: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Funding: This work was supported by Research on failure mechanism for girth weld of high steel pipeline (NO.WZXGL202105).

Citation

Liu, Q., Wei, R., Feng, Q., Dai, L., Huo, X., Wang, D., Yang, Z., Wang, B., Wang, X., Wang, C. and Wang, Y. (2024), "Effect of cathodic current density on hydrogen embrittlement susceptibility of X70 steel girth weld in different soil simulation solutions", Anti-Corrosion Methods and Materials, Vol. 71 No. 6, pp. 778-788. https://doi.org/10.1108/ACMM-04-2024-3008

Publisher

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Emerald Publishing Limited

Copyright © 2024, Emerald Publishing Limited

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