Abstract
The article presents the results of studying ductility and deformation resistance of 13Cr steel grades 20Kh13 (0.2C-13Cr), 15Kh13N2B (1.5 C-13Cr-2Ni-Nb), 08Kh13N4M1FB (0.8 C-13Cr-4Ni-1Mo-V-Nb), etc. in the process of hot plastic deformation, which, depending on the study objectives, is realized by uniaxial upsetting or uniaxial tension and torsion methods, characterized by different stress-strain patterns of the metal. The obtained scientific information about the deformation properties and ductility of the studied steel grades served as the basis for developing logic behind the Oil Country Tubular Goods (OCTG) technology to ensure the required level of product quality.
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References
B. Liu, H. Zhao, F. Li, et al., “Characterization and corrosion behavior of high-nitrogen HP-13Cr stainless steel in CO2 and H2S environment,” Intern. J. of Electrochemical Science, 16, 1, 1–15 (2021).
Liu W, Li J, Li S, Li X (2021) Effect of nitrogen on the hot deformation behavior of 0.4 C–13Cr martensitic stainless steel. steel Res Intern 92:8 (https://doi.org/10.1002/srin.202100020.)
Kosmatskii YaI, Barichko BV, Fokin NV, Nikolenko VD (2021) Application of the Gleeble 3800 system in developing hot pipe extrusion and pipe end upsetting technologies. Metallurg (4):36–41
Vydrin AV, Zhukov AS, Tumashev AS, Pavlova MA (2021) Ductility resource of high-chromium steel 08Kh13N4M1F during extrusion. Chyornye Met (12):59–62
Polukhin PI, Gun GYa, Galkin AM (1983) Resistance to Plastic Deformation of Metals and Alloys, 2nd edn. in Russian],Metallurgiya, Moscow
Korsakov AA, Mikhalkin DV, Alutina EV et al (2020) Study of the effect of heating temperature on technological plasticity of steel 15Kh13N2 as applied to the rotary piercing process. chyornaya Metall byul Ntiei 76(2):168–178
Akhmed’yanov AM, Rushchits SV, Smirnov MA (2016) Hot deformation of martensitic and supermartensitic stainless steels. MSF 870:259–264
Yu V (2020) Tsyutsyura, “Study of the effect of technological plasticity of continuous cast billets and roll wear during rotary piercing on the quality of pipes” [in Russian], Diss. Cand. Techn. Sci. Moscow
H.J. Frost and V.F. Ashby, Deformation Mechanism, Pergamon Press, Oxford (1982).
I.Yu. Pyshmintsev, S.M. Bityukov, Ya.I. Kosmatskii, et al., “Oil grade pipe from corrosion-resistant steel of martensitic class,” RF Patent No. 2703767, IPC C 22 C 38/50, Appl. No. 2018120345; filing date: June 01, 2018; publ. date: October 22, 2019; Bull. No. 30; applicant: TMK, PJSC.
Further Reading
Ductility and Fracture, ed. by V.L. Kolmogorov [in Russian], Metallurgiya, Moscow (1977).
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Translated from Metallurg, No. 11, pp. 75–80, November, 2023. Russian DOI: https://doi.org/10.52351/00260827_2023_11_75
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Kosmatskii, Y.I., Korsakov, A.A., Fokin, N.V. et al. Deformation resistance and ductility of 13Cr steel used for the manufacture of hot-worked octg. Metallurgist (2024). https://doi.org/10.1007/s11015-024-01662-0
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DOI: https://doi.org/10.1007/s11015-024-01662-0
Keywords
- 13Cr
- Chromium steels
- Deformation resistance
- Hot upsetting
- Hot tension
- Hot torsion
- Deformation temperature
- Maximum degree of deformation