ARCHITECTURE OF A MATHEMATICAL MODEL FOR PREDICTION OF THE QUALITY OF ANODIO-OXIDE COATINGS ON ALUMINUM AND ITS ALLOYS
Keywords:
quality forecasting, system engineering, architectural models, mathematical model, galvanic production, digital twin
Abstract
The paper describes the methodology of Model-Based Systems Engineering and its application for designing models of complex artificial technical systems. Application methods are demonstrated on the example of creating the architecture of a mathematical forecasting model quality of the anodic oxide coating on aluminum and its alloys obtained by galvanic method in sulfate electrolyte. It is shown that due to the universalism and simplicity of algorithmization and digitalization methods of model-based systems engineering allow you to move on to creation of digital twins of developed technical systems.References
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2. Romanov A.A. Prikladnoj sistemnyj inzhiniring. M.: FIZMATLIT, 2015. 555 c.
3. Kasser, J.E. (2019). Systems Engineering: A Systemic and Systematic Methodology for Solving Complex Problems (1st ed.). 472 r. CRC Press. https://doi.org/10.1201/9780429425936
4. Interv'ju s A.I. Borovkovym [Jelektronnyj resurs] / Centr komp'juternogo inzhiniringa SPbPU, 2021. – Rezhim dostupa: https://fea.ru/news/7687.
5. Kondrat'ev V.V. Model'no-orientirovannyj sistemnyj inzhiniring 2.0: ucheb. posobie. M.: MFTI, 2021. – 102 s.
6. Skopincev V.D. Oksidirovanie aljuminija i ego splavov. – M.: RHTU im. D.I. Mendeleeva, 2015. – 120 s.
7. Aver'janov E.E. Spravochnik po anodirovaniju. – M.: Mashinostroenie, 1988. – 224 s. Gal'vanotehnika. Spravochnik / Pod red. Ginberga A.M. – M.: Metallurgija, 1987. – 736 s.
8. Artur V. Brake. Tehnologii anodirovanija aljuminija. – M.: Interall, 2000.
9. Skopincev V.D. Razrabotka tehnologii nanesenija na aljuminij anodno-okisnyh pokrytij s povyshennoj zashhitnoj sposobnost'ju v hloridsoderzhashhih sredah.//
Diss. Kand. Tehn. Nauk. 1987.
10. Hunter M., Fowle P. Factors affecting the formation of anodic oxide coatings // Journal of the electrochemical society. – 1954, v. 101, №10. – p. 514- 519.
11. Tomashov N.D., Tjukina M.N., Zalivalov F.P. Tolstoslojnoe anodirovanie aljuminija i ego splavov. – M.: Mashinostroenie, 1968. – 156 s.
12. Golubev A.I. Anodnoe okislenie aljuminievyh splavov. – M.: Izd-vo AN SSSR, 1961. – 200 s.
13. Zahavi J., Kerbel H., Kord R. AC anodizing processes of aluminum alloys // Journal of the electrochemical society. – 1982, v. 127, №7. – p. 1572- 1579.
14. GOST 9.305-84. Edinaja sistema zashhity ot korrozii i starenija. Pokrytija metallicheskie i nemetallicheskie neorganicheskie. Operacii tehnologicheskih processov poluchenija pokrytij.
15. Proizvodstvennaja instrukcija PI 1.2.616- 2003. Sernokislotnoe anodnoe okislenie aljuminievyh splavov.
16. Aleshhenko A.S., Klishev O.P., Kondrat'ev V.V., Rasskazov A.A. Sovmeshhenie arhitekturnyh i matematicheskih modelej v sistemnom inzhiniringe tehnicheskih sistem // Kosmonavtika i raketostroenie, 2021, №5 (122).
17. Garichev S.N., Gorbachev R.A., Davydenko E.V., Dzhaparov B.A., Kondrat'ev V.V. Model'noorientirovannyj inzhiniring fizikotehnicheskih, informacionnyh i
intellektual'nyh sistem // Trudy MFTI. Serija informatika i upravlenie, 2022, tom 14, №2.– s. 149-161.
18. Prohorov A., Lysachev M. Cifrovoj dvojnik. Analiz, trendy, mirovoj opyt. Izdanie pervoe ispravlennoe i dopolnennoe / nauchnyj redaktor professor Borovkov A. – M.: OOO «Al'jansPrint», 2020. – 401 s.
Published
2023-01-06
How to Cite
Efremov, A.N. 2023. “ARCHITECTURE OF A MATHEMATICAL MODEL FOR PREDICTION OF THE QUALITY OF ANODIO-OXIDE COATINGS ON ALUMINUM AND ITS ALLOYS”. EurasianUnionScientists, January, 06-13. https://fizmat-tech.euroasia-science.ru/index.php/Euroasia/article/view/857.
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Article
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