The effects of crystallographic texture and hydrogen on sulfide stress corrosion cracking behavior of a steel using slow strain rate test method
Author:
Publisher
Pleiades Publishing Ltd
Subject
Materials Chemistry,Condensed Matter Physics
Link
http://link.springer.com/content/pdf/10.1134/S0031918X14130031.pdf
Reference26 articles.
1. V. Venegas, F. Caleyo, J. M. Hallen, T. Baudin and R. Penelle, “Role of crystallographic texture in hydrogen-induced cracking of low carbon steels for sour service piping,” Metall. Mater. Trans. A 38, 1022–1031 (2007).
2. Y. Tong and J. F. Knott, “Evidence for the discontinuity of hydrogen-assisted fracture in mild steel,” Scr. Mater. 25, 1651–1656 (1991).
3. H. M. Marette, G. Bardou, J. C. Charbonnier, “The application of the slow strain rate test method for the development of linepipe steels resistant to sulphide stress cracking,” Corrosion 27, 1009–1026 (1987).
4. J. Chen, J. Wang, E. Han, and W. Ke, “In situ observation of initial corrosion of MgAl9Zn magnesium alloy in cyclic wet-dry conditions using environmental scanning electron microscopy,” Corrosion 63, 661–671 (2007).
5. H. W. Pickering, “Assessment of data from three electrochemical instruments for evaluation of reinforcement corrosion rates in concrete bridge components,” Corros. Sci. 51, 602–609 (1995).
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