OBRABOTKAMETALLOV Vol. 25 No. 4 2023 178 MATERIAL SCIENCE All-Russian Conference “Modern educational technologies in training specialists for the mineral resource complex”]. St. Petersburg, 2020, рр. 1364–1370. (In Russian). 2. Zainyllin R.S., Zainyllina A.R. Vzaimosvyaz’ skorosti korrozii i napryazhenno-deformirovannogo sostoyaniya stali [Relationship of corrosion rate and tensions strain state of steel]. Neftegazovye tekhnologii i novye materialy. Problemy i resheniya [Proceedings of scientifi c papers “Oil and Gas Technologies and New Materials. Problems and solutions”]. Ufa, 2016, iss. 5 (10), рр. 347–353. 3. Gorelik S.S., Rastorguev L.N., Skakov Yu.A. Rentgenografi cheskii i elektronnoopticheskii analiz [X-ray and electron optical analysis]. Moscow, Metallurgiya Publ., 1970. 366 p. 4. Zernii Yu.V. Osnovy tochnosti i upravleniya kachestvom v priborostroenii [Fundamentals of accuracy and quality management in instrumentation]. Moscow, Moscow State Academy of Instrument Engineering and Computer Science Publ., 2003. 170 p. 5. Novikov I.I. Defekty kristallicheskogo stroeniya metallov [Defects in the crystal structure of metals]. Moscow, Metallurgiya Publ., 1975. 208 p. 6. State Standard 9.008–85. Unifi ed system of corrosion and ageing protection. Metals and alloys. Methods for determination of corrosion and corrosion resistance indices. Moscow, Standards Publ., 2004. 17 p. (In Russian). 7. Baginskii A.G., ed. Materialovedenie [Materials science]. Tomsk, Tomsk Polytechnic University Publ., 2015. 104 p. 8. Reformatskaya I.I., Rodionova I.G., Beilin Yu.A., Nisel’son L.A., Podobaev A.N. Rol’ nemetallicheskikh vklyuchenii i mikrostruktury v protsesse lokal’noi korrozii uglerodistykh i nizkolegirovannykh stalei [The eff ect of nonmetal inclusions and microstructure on local corrosion of carbon and low-alloyed steels]. Zashchita metallov = Protection of Metals, 2004, vol. 40, no. 5, pp. 498–504. (In Russian). 9. Rodionova I.G., Baklanova O.N., Zaitsev A.I. O roli nemetallicheskikh vklyuchenii v uskorenii protsessov lokal’noi korrozii neftepromyslovykh truboprovodov iz uglerodistykh i nizkolegirovannykh stalei [On the role of nonmetallic inclusions in the acceleration of local corrosion of oil-fi eld pipelines made of carbon and low-alloy steels]. Metally = Russian Metallurgy (Metally), 2004, no. 5, pp. 13–19. (In Russian). 10. Sokolov R.A., Novikov V.F., Muratov K.R., Venediktov A.N. Opredelenie vzaimosvyazi faktora raznozernistosti i skorosti korrozii konstruktsionnoi stali [Determination of the relationship between the factor of grain size factor and the corrosion rate of structural steel]. Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) = Metal Working and Material Science, 2020, vol. 22, no. 3, pp. 106–125. DOI: 10.17212/1994-63092020-22.3-106-125. 11. Sokolov R.A., Novikov V.F., Muratov K.R., Venediktov A.N. Otsenka vliyaniya dispersnosti struktury stali na magnitnye i mekhanicheskie svoistva [Assessment of the eff ect of the steels structure dispersion on its magnetic and mechanical properties]. Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) = Metal Working and Material Science, 2021, vol. 23, no. 4, pp. 93–110. DOI: 10.17212/1994-6309-2021-23.4-93-110. 12. Ueji R., Tsuchida N., Terada D., Tsuji N., Tanaka Yu., Takemura A., Kunishige K. Tensile properties and twinning of high-manganese austenitic steel with fi ne-grained structure. Scripta Materialia, 2008, vol. 59, iss. 9, pp. 963–966. DOI: 10.1016/j.scriptamat.2008.06.050. 13. Babicheva R.I., Semenov A.S., Dmitriev S.V., Zhou K. Eff ect of grain boundary segregations on martensitic transformation temperatures in NiTi bi-crystals. Letters on Materials, 2019, vol. 9 (2), pp. 162–167. DOI: 10.22226/2410-3535-2019-2-162-167. 14. Li M., Kirk M.A., Baldo P.M., Xu D., Wirth B.D. Investigation of the evolution of defects by the TEMmethod with ion irradiation in situ and coordinated modeling. Philosophical Magazine, 2012, vol. 92 (16), pp. 2048–2078. DOI: 10.1080/14786435.2012.662601. 15. Sokolov R.A., Novikov V.F., Venediktov A.N., Muratov K.R. Infl uence of surface treatment of construction steels on determination of internal stresses and grain sizes using X-ray diff ractometry method. Materials Today: Proceedings, 2019, vol. 19 (5), pp. 2584–2585. DOI: 10.1016/j.matpr.2019.09.015. 16. Sokolov R.A., Novikov V.F., Kovenskij I.M., Muratov K.R., Venediktov A.N., Chaugarova L.Z. Vliyanie termicheskoi obrabotki na obrazovanie soedineniya MnS v nizkouglerodistoi konstruktsionnoi stali 09G2S [The eff ect of heat treatment on the formation of MnS compound in low-carbon structural steel 09Mn2Si]. Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) = Metal Working and Material Science, 2022, vol. 24, no. 4, pp. 113–126. DOI: 10.17212/1994-6309-2022-24.4-113-126. 17. Abuku S. Magnetics studies of residual stress in iron and steel induced by uniaxial deformation. Japanese Journal of Applied Physics, 1977, vol. 16 (7), pp. 1161–1170. DOI: 10.1143/JJAP.16.1161.
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