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Metallurgist

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23-02-2023

Structure and Properties of Steel for Producing Hydrogen Sulfide Resistant Oil and Gas High Strength Pipes

Authors: D. A. Pumpyanskii, I. Yu. Pyshmintsev, A. N. Maltseva, D. P. Uskov, M. A Smirnov, A. M. Arsenkin

Published in: Metallurgist | Issue 9-10/2023

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Abstract

Oil and gas production casing and compression pipes used for structures in oil and gas deposit structures contaminated with a high concentration of hydrogen sulfide should have alongside high strength and cold resistance good sulfide stress corrosion cracking resistance. Medium carbon steels alloyed with chromium and molybdenum are used extensively for such products. After quenching and tempering in the temperature range 680–720ºC these steels possess increased yield and tensile strengths along with good ductility. Alloying with molybdenum and vanadium provides a marked increase in sulfide stress corrosion cracking resistance with an increase in tempering temperature in the range indicated.

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A. Di Schino, G. Porcu, M. Longobardo, and G. Turconi, Metallurgical Design and Development of C125 Grade for Mild Sour Service Application, Corrosion NACEexpo. 2006 / Paper No. 06125.

H. Asahi, Y. Sogo, M. Ueno, and H. Higashiyama, “Metallurgical factors controlling SSC resistance of high strength low alloy steels,” Corrosion, 45, 519 (1989).CrossRef

H. Asahi and M. Ueno, “Effect of austenite grain size on SSC resistance of low alloy martensitic steels,” ISIJ Intern., 32, No. 9, 1021–1026 (1992).CrossRef

P. J. Grobner, D. L. Sponseller, and W. W. Cias, “Development of higher strength H2S resistant steels for oil field application,” Mater. Perform., 14, No. 6, 33–43 (1975).

K. Kobayashi and K. Kondo, “Comparison of sour environmental severity by DCB,” in: Proc. Eurocorr’2015 (Graz, Austria. Sept. 6–10 (2015), pp. 115–123.

T. A. Dergach, “Scientific substantiation of selecting low-carbon steel and manufacturing technology for oil and gas pipelines with improved corrosion resistance,” in: Coll. Sci. Work “Construction, Materials Science, Engineering” Ser. Starodubov Readings (2012), pp. 202–210.

C. Mendibide and T. Sourmail, “Composition optimization of high-strength steels for sulfide stress cracking resistance improvement,” Corrosion Sci., 51, 2878–2884 (2009).CrossRef

P. J. Grobner, D. L. Sponseller, and D. E. Diesburg, “The effect of processing variables on mechanical properties and sulfide stress cracking resistance of SAE 4135 steel modified with 0.75% Mo and 0.035 Nb,” Trans. ASME J. Eng. Industry, 98, No. 2, 708–716 (1976).CrossRef

H. Asahi, D. Hirakami, and S. Yamasaki, “Hydrogen trapping behavior in vanadium added steel,” ISIJ Intern., 43, No. 4, 527–533 (2003).CrossRef

10.

OCTG Materials and Corrosion in Oil and Gas Production, Published by Sumitomo Metal Industries, April (2008).

11.

R. Heidersbach, Metallurgy and Corrosion Control in Oil and Gas Production, Wiley (2018).

12.

S. S. Gorelik, Yu. A. Skakov, and A. P. Rastorguev, X-Radiographic and Electron-Optical Analysis [in Russian], 3rd. ed., MiSIS, Moscow (1994).

13.

S. S. Gorelik, S. V. Dobatkin, and L. M. Kaputkina, Metal and Alloy Recrystallization [in Russian], MISiS, Moscow (2005).

14.

P. D. Odesskii and I. I. Vedyakov, Steel in Building Metal Structures [in Russian], Metallurgizdat, Moscow (2018).

15.

M. A. Smirnov, V. M. Schastlivtsev, and L. G. Zhuravlev, Bases of Steel Heat Treatment [in Russian], Nauka i Tekhnologii, Moscow (2002).

16.

K. Miyata, T. Omursa, T. Kushida, and Y. Komizo, “Coarsening kinetics of multicomponent MC-carbides in high-strength lowalloy steels,” Metallurgical and Materials Transformation A, 34A, No. 8, 1565–1573 (2003).CrossRef

Title: Structure and Properties of Steel for Producing Hydrogen Sulfide Resistant Oil and Gas High Strength Pipes
Authors: D. A. Pumpyanskii
I. Yu. Pyshmintsev
A. N. Maltseva
D. P. Uskov
M. A Smirnov
A. M. Arsenkin
Publication date: 23-02-2023
Publisher: Springer US
Published in: Metallurgist / Issue 9-10/2023
Print ISSN: 0026-0894
Electronic ISSN: 1573-8892
DOI: https://doi.org/10.1007/s11015-023-01430-6

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