Мақаланы E-mail арқылы жіберу Primary sensing element of a differential magnetic structuroscope for measuring residual austenite in ferromagnetic steels
- Авторлар: Gordeev N.V.1, Stashkov A.N.1
-
Мекемелер:
- M.N. Mikheev lnstitute of Metal Physics of Ural Branch of Russian Academy of Sciences
- Шығарылым: № 7 (2025)
- Беттер: 65-69
- Бөлім: По материалам XXXV Уральской конференции «Физические методы неразрушающего контроля (Янусовские чтения)»
- URL: https://vietnamjournal.ru/0130-3082/article/view/688879
- DOI: https://doi.org/10.31857/S0130308225070078
- ID: 688879
Дәйексөз келтіру
Ашық рұқсат
Рұқсат берілді
Аннотация
The design of the primary transducer with an H-shaped yoke for a differential magnetic structuroscope (DMS-5) has been optimized for non-destructive testing of residual austenite (RA) content in ferromagnetic steels. Numerical simulation using the finite element method was performed to analyze the magnetic flux distribution in the H-shaped magnetic core, and the optimal gap dimensions for mounting a Hall-effect sensor as the sensing element were determined. Experimental results confirmed a twofold increase in sensitivity of the new transducer design compared to the previous version, enhancing the reliability of non-destructive phase composition analysis in ferromagnetic steels. A linear relationship was established between the output signal of the DMS-5 transducer and RA content in the range of 9—18 % in the tested samples.
Толық мәтін
Авторлар туралы
N. Gordeev
M.N. Mikheev lnstitute of Metal Physics of Ural Branch of Russian Academy of Sciences
Хат алмасуға жауапты Автор.
Email: GordeevN.V@yandex.ru
Ресей, 620108, Yekaterinburg, S. Kovalevskaya str., 18
A. Stashkov
M.N. Mikheev lnstitute of Metal Physics of Ural Branch of Russian Academy of Sciences
Email: stashkov@imp.ru
Ресей, 620108, Yekaterinburg, S. Kovalevskaya str., 18
Әдебиет тізімі
- By’kova T. Yu. Mikrostrukturnoe issledovanie austenitno-martensitnoj stali // Molodezhny`j vestnik IrGTU. 2018. V. 8. No 1. P. 32—35.
- Kumar Krovvidi S.C.S.P., Das C.R., Sunil Goyal, Arun Kumar S. Mahadevan S., Albert Shaju K., Raghupathy S. Influence of heat treatment condition on tensile properties of AM350 stainless steel // Transactions of the Indian Institute of Metals. 2023. V. 76. No. 1. P. 87—95.
- Sinodeeva P.I. Features of heat treatment of the material 13x15n4am3-sh (vns-5) for parts of the type of bodies of rotation // Journal of Advanced Research in Technical Science. 2022. No. 32. P. 111—115.
- Apaev B.A. Fazovy’j magnitny`j analiz splavov. M.: Metallurgiya, 1973. 280 p.
- Stashkov A.N., Somova V.M., Sazhina E.Yu., Stashkova L.A., Nogin V.S., Nichipuruk A.P. The magnetic properties of grade BHC-2YCyrillic capital letter sha maraging steel subjected to plastic deformation // Defectoskopiya. 2013. No. 12. P. 41–52.
- Stashkov A.N., Somova V.M., Korx Yu.V., Ogneva M.S., Stashkova L.A., Sazhina E.Yu. Magnetic and acoustic techniques for determining the phase composition and destruction dynamics of plastically deformed cobalt-free martensite-aging steel // Defectoskopiya. 2015. No. 7. P. 54—68.
- Bida G. V. Differential magnetic method of nondestructive testing and phase analysis // Russian Journal of Nondestructive Testing. 2002. V. 38. No. 1. P. 21—35.
- Kostin V.N., Lukiny’x O.N., Smorodinskij Ya.G., Kostin K.V. Simulation of field and inductance spatial distribution in locally magnetized massive objects and optimization of U-shaped transducer design // Defectoskopiya. 2010. No. 6. P. 13—21.
- Vasilenko O.N., Kostin V.N. The topography of the field and flux inside and above the surfaces of ferromagnetic plates during their contact and contactless magnetization // Defectoskopiya. 2013. No. 9. P. 23—34.
- Gorkunov E. S. Magnetic structural-phase analysis. Part II // Diagnostics, Resource and Mechanics of Materials and Structures. 2015. V. 3. P. 6—50.
Қосымша файлдар
