The effect of an electrolytic-plasma treatment on the structure of steel 45G is studied. The possibilities of computer technologies for description of steel structures are considered.
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E. V. Proskurkin, V. A. Gelovani, A. N. Sonk, and D. A. Sukhomlin, “Effective protective coatings of tubing strings under rigid conditions of oil and gas extraction,” Stal’, No. 9, 39 – 42 (2017).
E. V. Proskurkin, V. I. Bolshakov, T. A. Dergach, et al., “Complex studies of physicomechanical and corrosion properties of diffusion-galvanized tubing strings,” Stal’, No. 8, 76 – 79 (2014).
I. A. Chizhov and P. A. Pachkolina, “Complex approach to assessing the quality of zinc coatings on tubing string clutches based on investigation of their structure and properties,” Metallurg, No. 11, 94 – 98 (2013).
V. A. Morgunov, S.M. Nebogov, and I. L. Fedotov, “Raising the wear resistance of tubing string thread under the action of ultrasound,” Metallurg, No. 12, 65 – 69 (2017).
G. I. Lashchenko, Plasma Hardening and Sputtering [in Russian], Ékotekhnologiya, Kiev (2003), 64 p.
A. V. Kudrya, E. A. Sokolovskaya, V. Yu. Perezhogin, et al., “Measurement of banded microstructure characteristics in sheet steels,” Metallurgist, No. 62, 11 – 12 (2019).
E. A. Sokolovskaya, “About reproducibility of results of measurements of structures and fractures with the use of computer procedures,” Vopr. Materialoved., No. 4(76), 143 – 153 (2013).
E. Kozha, D. U. Smagulov, G. E. Akhmetova, and K. K. Kombaev, “Laboratory installation for electrolytic-plasma treatment of steel,” News Akad. Sci. Rep. Kazakhstan, Ser. Geology Techn. Sci., No. 4(424), 219 – 224 (2017).
A. V. Nikitin and V. G. Khanzhin, “Possibilities of computer measuring systems for image analysis in investigation of composite superconductors,” Metalloved. Term. Obrab. Met., No. 4, 58 – 62 (2015).
A. S. Mel’nichenko, A. V. Kudrya, T. Sh. Akhmedova, and E. A. Sokolovskaya, “Prediction of the risk of fracture of hard alloys in hardening claddings in terms of the morphology of their structure,” Metallurg, No. 12, 83 – 87 (2017).
M. A. Smirnov, V. M. Schastlivtsev, and L. G. Zhuravlev, Fundamentals of Heat Treatment of Steel [in Russian], Inst. Fiz. Met. UrO Ross. Akad Nauk, Ekaterinburg (1999), 494 p.
Ya. Yu. Nikitin, Asymptotic Efficiency of Nonparametric Criteria [in Russian], Fizmatgiz, Moscow (1995), 240 p.
A. V. Kudrya, E. A. Sokolovskaya, and T. Sh. Akhmedova, “Factors of fracture resistance of iron-base hard alloys,” Élektrometallurgiya, No. 11, 20 – 25 (2017).
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Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 11, pp. 14 – 17, November, 2019.
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Akhmetova, G.E., Kozha, E., Vyatkina, A.K. et al. Assessment of the Effect of Electrolytic-Plasma Treatment on the Structure of Steel 45G. Met Sci Heat Treat 61, 687–690 (2020). https://doi.org/10.1007/s11041-020-00483-7
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DOI: https://doi.org/10.1007/s11041-020-00483-7