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All issues Volume 225 (2021) E3S Web of Conf., 225 (2021) 02001 References
Open Access
Issue
E3S Web of Conf.
Volume 225, 2021
II International Conference “Corrosion in the Oil & Gas Industry” 2020
Article Number 02001
Number of page(s) 3
Section Corrosion Monitoring
DOI https://doi.org/10.1051/e3sconf/202122502001
Published online 05 January 2021
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  2. R. Heidersbach. Metallurgy and Corrosion Control in Oil and Gas Production (John Wiley & Sons, Inc., 2010) [Google Scholar]
  3. L. Popoola, A.Grema, G.Kayode et.al., Corrosion problems during oil and gas production and its mitigation (International Journal of Industrial Chemistry, 4:35, 2013) [CrossRef] [Google Scholar]
  4. I. Kostitsyna, A. Shakhmatov, A. Davydov, Study of corrosion behavior of carbon and low-alloy steels in CO2-containing environments (E3S Web Conf., 121, 04006, 2019) [CrossRef] [Google Scholar]
  5. Patent of the Russian Federation on invention № 2490709, “Fluorescent informational label and methods of its manufacture.” A.V. Lezhnev, M.U. Kvasha, G.N. Dorozhkina, K.I. Donetskiy [Google Scholar]
  6. Patent of the Russian Federation on invention № 2538580 “Polymer composition, direct applicationc marking with polymer composition manufacture method and direct application marking.” A.E. Zhedulov, A.V. Lezhnev, A.L. Roschin, G.N. Dorozhkina [Google Scholar]
  7. Patent of the Russian Federation on invention № 2550179 “Polymer composition, direct part marking with polymer composition manufacture method and direct application marking.” A.E. Zhedulov, A.V. Lezhnev, A.L. Roschin, G.N. Dorozhkina [Google Scholar]
  8. Patent of the Russian Federation on invention № 2598290 “A method for monitoring controlled parameters in multiple local areas using labels.” M.U. Kvasha, V.V. Gutenev, A.L. Roschin, A.V. Lezhnev, G.N. Dorozhkina, I.E. Diskin [Google Scholar]
  9. Patent of the Russian Federation on invention № 2609912 “A method for producing, including restoring, fluorescent direct application marking.” M.U. Kvasha, A.L. Roschin, A.V. Lezhnev, G.N. Dorozhkina, O.V. Holkin, A.E. Zheludov [Google Scholar]
  10. Patent of the Russian Federation on invention № 2634829“A method for protecting, including renewable, the marking of direct application against external influences and unauthorized reading” M.U. Kvasha, A.L. Roschin, A.V. Lezhnev, G.N. Dorozhkina, O.V. Holkin, A.E. Zheludov [Google Scholar]
  11. Patent of the Russian Federation on invention № 2637041 “A method for producing direct applying marking” M.U. Kvasha, A.L. Roschin, A.V. Lezhnev, G.N. Dorozhkina, O.V. Holkin [Google Scholar]
  12. Patent of the Russian Federation on invention № 2665867 “Machine readable microrelief direct application marking” A.V. Lezhnev, A.L. Roschin, A.K. Choboeva [Google Scholar]
  13. Patent of the Russian Federation on invention № 2715462 “Method of marking application” A.V. Lezhnev, O.A. Omarov, S.A. Pavlov, A.L. Roschin [Google Scholar]
  14. F. Alavi, E. Homagerani, M. Rasooly, Standardization of laser marking for tracking gas pipes in transmission and distribution projects by destructive and nondestructive tests, (12th European Conference on Non-Destructive Testing (ECNDT 2018), Gothenburg 2018, June 11-15 (ECNDT 2018)) [Google Scholar]

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