Resistance of products made of steel 20GL to sulfide stress corrosion cracking

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The paper provides a short review of the history of the development of native and foreign regulatory requirements of testing for sulfide stress corrosion cracking. Systematic ambiguity (duplicated in the reviewed regulatory requirements) in the choice of test environment parameters and its influence on the interpretation of the results was revealed. A series of laboratory tests, the purpose of which was to specify the choice of the most favorable combinations of parameters (pH2S/pH combinations) of the test medium was conducted.

About the authors

N. M. Blazhnov

Samara National Research University

Author for correspondence.
ORCID iD: 0000-0002-0381-0565

Postgraduate Student, Engineer

Russian Federation

E. A. Borisenkova

Valma Research and Production Enterprise, LLC


Candidate of Science (Engineering), Lead Engineer

Russian Federation

M. V. Khardin

Samara National Research University

ORCID iD: 0000-0001-5257-7125

Candidate of Science (Engineering); Associate Professor

Russian Federation


  1. Zyryanov A.O. Issledovanie korrozionnogo razrusheniya nasosno-kompressornykh trub iz stali 15Kh5MFBCh v vysoko agressivnykh neftepromyslovykh sredakh i usovershenstvovanie tekhnologii termicheskoy obrabotki etikh trub. Dis. … kand. tekhn. nauk [Study of corrosion failure of tubing made of steel 15Cr in highly aggressive oilfield envi-ronments and improvement of pipe heat treatment. Candidate’s Dissertation (Engineering)]. Togliatti, 2018. 179 p.
  2. Yakimov S.B. Types of corrosion of SEM and ESP casings at TNK-BP fields. Inzhe-nernaya Praktika. 2010. No. 6. P. 44-55. (In Russ.)
  3. Ioffe A.V., Lipatov R.A., Zyryanov A.O. Reliability of elements of submersible equipment during operation in conditions of corrosive environment. Investigation of the caus-es of premature failures. Inzhenernaya Praktika. 2017. No. 1-2. P. 30-42. (In Russ.)
  4. Georgiev M.N., Simonov Yu.N. Treshchinostoykost' zhelezouglerodistykh splavov [Crack resistance of iron-carbon alloys]. Perm: Perm National Research Polytechnic University Publ., 2013. 419 p.
  5. Shreyler A.V., Shparber I.S., Archakov Yu.I. Vliyanie vodoroda na neftyanoe i khimicheskoe oborudovanie [Influence of hydrogen on oil and chemical equipment]. Moscow: Mashinostroenie Publ., 1976. 144 p.
  6. Gonik A.A. Korroziya neftepromyslovogo oborudovaniya i mery ee preduprezhdeniya [Corrosion of oilfield equipment and measures to prevent it]. Moscow: Nedra Publ., 1976. 192 p.
  7. Alkhimenko A.A., Kharkov A.A., Shemyakinskiy B.A., Shaposhnikov N.O. Devel-opment of the methodology of accelerated testing of oil – gas pipe steels for stress corrosion cracking. Industrial Laboratory. Materials Diagnostics. 2020. No. 86 (9). P. 70-76. (In Russ.). doi: 10.26896/1028-6861-2020-86-9-70-76
  8. Kravchenko A.V., Moltsen S.N., Simonov Yu.N., Polezhayev R.M., Pogorelov E.V. Analysis and selection testing methods for sulfide stress corrosion cracking of steels in H2S environment. Bulletin PNRPU. Mechanical Engineering, Materials Science. 2021. V. 23, no. 2. P. 43-54. (In Russ.). doi: 10.15593/2224-9877/2021.2.06
  9. Pyshmintsev I.Yu., Veselov I.N., Shiryaev A.G., Yerkhinskiy B.A., Chernukhin V.I., Arabey A.B. Development of corrosion-resistant pipes for hydrogen sulfide containing media. Oil and Gas Territory. 2016. No. 7-8. P. 62-71. (In Russ.)

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