Research of Mechanochemical Corrosion of Steels С1020 and А516-55

[1] I.G. Abdullin, A.G. Gareev, Corrosion fatigue durability of pipe steel in carbonate-bicarbonate media, Fiziko-Khimicheskaya Mekhanika Materialov. 29 № 5 (1993) 97-98.

DOI: 10.1007/bf00558780

Google Scholar

[2] I.G. Abdullin, A.G. Gareev, Corrosion-fatigue durability of pipe steel in carbonate-bicarbonate medium, Materials Science. 29 № 5 (1994) 539-541.

DOI: 10.1007/bf00558780

Google Scholar

[3] R.G. Rizvanov, R.G. Abdeev, N.L. Matveev, R.G. Ryskulov, A.I. Shenknekht, A.F. Insafutdinov, Effect of the geometry of the shell/elliptical-bottom contact zone on the stress state of pressure vessels, Chemical and Petroleum Engineering. 36 (2000) 3.

DOI: 10.1007/bf02463460

Google Scholar

[4] I.G. Ibragimov, R.G. Vil'danov, Measuring stresses in welded joints by the remagnetisation loss method, Welding International. 21 № 2 (2007) 139-141.

DOI: 10.1533/wint.2007.3770

Google Scholar

[5] Е.М. Gutman, I.G. Abdullin, D.E. Bugai, Kinetics of microdistortion changes of the crystal lattice and electrochemical behavior of austenitic steel during low-cycle corrosion fatigue, Protection of Metals and Physical Chem. of Surfaces. 18 № 3 (1982) 416.

Google Scholar

[6] 8. O.A Nasibullina, A.G Gareev and R.G. Rizvanov, Solid State Phenomena. 284 (2018) 1302.

Google Scholar

[7] R.G. Rizvanov, R.G. Abdeev, N.L. Matveev, R.G. Ryskulov, A.I. Shenknekht A.F. Insafutdinov, Effect of the geometry of the shell/elliptical-bottom contact zone on the stress state of pressure vessels, Chemical and Petroleum Engineering. 36 (2000) 3.

DOI: 10.1007/bf02463460

Google Scholar

[8] O.A. Nasibullina and A.G. Gareev, Materials Science Forum. 946 (2019) 381-6.

Google Scholar

[9] A.B Laptev and D.E Bugay, Fighting against corrosion in oil and gas complex of Russia: problems and the ways of their solving European Corrosion Congress (EUROCORR-2010) (Moscow: Curran Associates, Inc.). (2010) 191.

Google Scholar

[10] D.V. Karetnikov, R.G. Rizvanov, A.M. Fairushin, K.S. Kolokhov, Increasing the reliability of oil and gas equipment working in the conditions of steep temperature gradients, Welding International. 27 № 7 (2013) 557-560.

DOI: 10.1080/09507116.2012.715949

Google Scholar

[11] R.B. Tukaeva, V.G. Afanasenko, P.A. Kulakov, Development of a technique of the automated construction of 3D models of standard mass transfer trays, MATEC Web of Conferences. 224 (2018) 04027.

DOI: 10.1051/matecconf/201822404027

Google Scholar

[12] P.A. Kulakov, A.V. Rubtsov, V.G. Afanasenko, V. Gracheva, Technical condition parameters affecting the period of safe operation of technological pipelines, MATEC Web of Conferences. 224 (2018) 02090.

DOI: 10.1051/matecconf/201822402090

Google Scholar

[13] A.S. Tyusenkov, Chemical resistance of steel 13CrV (rus 13ХФА), Steel. 2 (2016) 53-57.

Google Scholar

[14] K.A. Mirkhaydarova, A.S. Tyusenkov, R.G. Rizvanov, Gas Corrosion of Pyrolysis Furnace Coils, Solid State Phenomena. 284 (2018) 1297-1301.

DOI: 10.4028/www.scientific.net/ssp.284.1297

Google Scholar

[15] A.S. Tyusenkov and O.A. Nasibullina, IOP Conf. Ser.: Mater. Sci. Eng. 687 (2019) 066021.

DOI: 10.1088/1757-899x/687/6/066021

Google Scholar

[16] A.S. Tyusenkov and O.A. Nasibullina, IOP Conf. Ser.: Mater. Sci. Eng. 687 (2019) 066016.

DOI: 10.1088/1757-899x/687/6/066016

Google Scholar

[17] P.A. Kulakov, A.A. Kutlubulatov, V.G. Afanasenko, Forecasting of the hydraulic fracturing efficiency as components of its design optimization, SOCAR Proceedings. 2 (2018) 41-48.

DOI: 10.5510/ogp20180200349

Google Scholar

[18] V.G. Afanasenko, I.R. Kuzeev, Y.S. Kovshova, P.A. Kulakov, Emulsification intensification under simultaneous impact of original and reflected ultrasonic vibrations, Bulletin of the Tomsk Polytechnic University, Geo Assets Engineering. 329(2018) 44-51.

Google Scholar

[19] P.A. Kulakov, D.D. Galyautdinov, V.G. Afanasenko, Problem of Calculation of Reliability of Hierarchical Complex Technical Systems, Lecture Notes in Mechanical Engineering. (2020) 753-763.

DOI: 10.1007/978-3-030-22041-9_81

Google Scholar

[20] O.A. Nasibullina and A.S. Tyusenkov, IOP Conf. Ser.: Mater. Sci. Eng. 537 (2019) 022018.

DOI: 10.1088/1757-899x/537/2/022018

Google Scholar

[21] O.A. Nasibullina and A.S. Tyusenkov, IOP Conf. Ser.: Mater. Sci. Eng. 537 (2019) 022023.

DOI: 10.1088/1757-899x/537/2/022023

Google Scholar

[22] P.A. Kulakov, D.D. Bogdanova, V.G. Afanasenko, The Task of Definition of Nonconformity of the Emergency Response plan Level for the Emergency Level, IOP Conference Series: Earth and Environmental Science. 272(2019) 032072.

DOI: 10.1088/1755-1315/272/3/032072

Google Scholar

[23] P.A. Kulakov, V.G. Afanasenko, Influence of Minimally Permissible Quantity of Source Materials on the Probability of Failure of a Pump−Tank System, Chemical and Petroleum Engineering. 54 (2019) 681-686.

DOI: 10.1007/s10556-019-00533-9

Google Scholar

[24] GOST 1497 – 84 «Metally. Metody ispytanij na rastyazhenie» [GOST 1497 - 84 "Metals. Methods of tensile tests]. – M.: Standartinform. 2008. Pp. 4-30. (In Russian).

Google Scholar

[25] GOST R 9.905-2007 (ISO 7384:2001, ISO 11845:1995) «Edinaya sistema zashchity ot korrozii i stareniya (ESZKS). Metody korrozionnyh ispytanij. Obshchie trebovaniya» (GOST R 9.905-2007 (ISO 7384:2001, ISO 11845:1995) Unified Corrosion and Aging Protection System (UCAPS). Methods of corrosion tests. General requirements,]. M.: Standartinform. 2007. 6 - 48. (In Russian).

DOI: 10.1108/acmm.2001.12848eab.006

Google Scholar