Email this article ESTIMATION OF THE DEFORMATION STABILITY OF THE PHASE COMPOSITION OF AUSTENITIC-FERRITIC CLADDINGS MADE OF POWDER WIRES
- Authors: Lapin M.V.1, Mushnikov A.N.1, Soboleva N.N.1
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Affiliations:
- Institute of Engineering Science, Ural Branch of the Russian Academy of Sciences
- Issue: No 7 (2025)
- Pages: 59-64
- Section: По материалам XXXV Уральской конференции «Физические методы неразрушающего контроля (Янусовские чтения)»
- URL: https://journals.rcsi.science/0130-3082/article/view/292793
- DOI: https://doi.org/10.31857/S0130308225070069
- ID: 292793
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Abstract
Magnetic methods are promising for express analysis of the phase composition of austenitic-ferritic steels. During the study of multilayer weld claddings obtained from the developed austenitic-ferritic flux-cored wires, it was necessary to determine the ferrite content in the metal and evaluate the stability of the phase composition under plastic tension. The developed wires allow obtaining a weld metal with deformation stability. The methods used allow determining the proportion of ferrite in the welded state with an accuracy that allows using magnetic methods in production to evaluate the structural composition of finished structures using non-destructive methods
About the authors
Matvey Vyacheslavovich Lapin
Institute of Engineering Science, Ural Branch of the Russian Academy of Sciences
Email: Matt2003@inbox.ru
Russian Federation, 620049 Ekaterinburg, Komsomolskaya st., 34
Alexander Nikolaevich Mushnikov
Institute of Engineering Science, Ural Branch of the Russian Academy of Sciences
Email: mushnikov@imach.uran.ru
Russian Federation, 620049 Ekaterinburg, Komsomolskaya st., 34
Natalia Nikolaevna Soboleva
Institute of Engineering Science, Ural Branch of the Russian Academy of Sciences
Author for correspondence.
Email: Natashasoboleva@list.ru
Russian Federation, 620049 Ekaterinburg, Komsomolskaya st., 34
References
- Berezovskij A.V., Smolencev A.S., Shalimov M.P., Smolencev M.S., Balin A.N. Sovremennoe sostoyanie i problemy svarivaemosti vysokoprochnyh zakalivayushchihsya stalej // Tyazheloe mashinostroenie. 2021. No. 7—8. P. 2—9.
- Prokopyev L.A., Golikov N.I., Saraev Yu.N. Crack Growth in the Field of Residual Stresses in Welded Joints of Pipelines Used in a Cold Climate // Diagnostics, Resource and Mechanics of materials and structures. 2024. Is. 5. P. 159—169.
- Smolencev A.S. Puti resheniya problemy svarivaemosti vysokoprochnyh stalej, sklonnyh k zakalke (obzor) // Svarka i diagnostika. 2019. No. 3. P. 48—53.
- Shalimov M.P., Berezovskij A.V., Smolencev A.S. Razrabotka tekhnologii i poroshkovoj provoloki dlya dugovoj svarki vysokoprochnyh legirovannyh stalej // Vestnik PNIPU. Mashinostroenie, materialovedenie. 2019. V. 21. No. 1. P. 49—54.
- Smolentsev A.S., Soboleva N.N., Votinova E.B., Veselova V.E. Influence of the type of welding materials and welding process parameters on the characteristics of the deposited metal of austenitic class // Svarka i diagnostika. 2025. No. 1. P. 47—50.
- Goruleva L.S., Zadvorkin S.M., Mushnikov A.N. Effect of Plastic Deformation on the Phase Composition and Electromagnetic Characteristics of the 321n Austenitic Steel (08kh18n10t) // Diagnostics, Resource and Mechanics of materials and structures. 2022. Is. 6. P. 95—106.
- Gorkunov E.S. Magnetic Structural-phase Analysis. Part II // Diagnostics, Resource and Mechanics of materials and structures. 2015. Is. 3. P. 6—50.
- Merinov P.E., Entin S.D., Beketov B.I., Rynov A.E. Method of quantitative determination of ferrite content in welded seams of chromium-nickel steels // Welding production. 1977. No. 3. P. 9—13.
- Korkh M.K., Rigmant M.B., Davydov D.I., Shishkin D.A., Nichipuruk A.P., Korkh Y.V. Determination of the phase composition of three-phase chromium–nickel steels from their magnetic properties // Defectoskopiya. 2015. No. 12. P. 20—31.
- Korkh M.K., Rigmant M.B., Sazhina E.Y., Kochnev A.V. Measuring ferromagnetic phase content based on magnetic properties in two-phase chromium–nickel steels // Defectoskopiya. 2019. No. 11. P. 32—44.
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