Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
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22 | 12 | 2024
2020, 09 September

DOI: 10.14489/td.2020.09.pp.018-025

Sandomirski S. G., Valco А. L., Rudenko S. P.
ANALYSIS OF THE POSSIBILITY OF NON-DESTRUCTIVE TESTING OF THE CARBURIZING DEPTH OF 18KHGT STEEL USING POLE MAGNETIZATION
(pp. 18-25)

Abstract. High-voltage transmission parts of energy-saturated machines are made of cemented steels subjected to chemical-thermal treatment. In low carbon steel, a strong high carbon surface layer is formed with a relatively soft and viscous core of the product. Non-destructive magnetic control of the depth of the hardened layer is based on the difference in the physical properties of the surface layer and the core of the product. The coercive force Hc has received the greatest application for quality control of surface hardening. One of the most common methods for controlling the properties of products made of ferromagnetic materials according to the results of the indirect determination of Hc is the “point pole” method. The modern implementation of the “point pole” method is implemented in the device “Magnetic Sorter MS-1”. The device measures the gradient of the normal component of the remanent magnetization field above the point of contact of the magnet pole with the surface of the product being monitored. The studis showed that there is a close correlation between the carburizing depth of the studied samples of 18KhGT steel and the readings of the MS-1 device. This is a prerequisite for the development of a non-destructive method for controlling the quality of cementation of gears of transmissions of mobile machines.

Keywords: surface hardening, carburizing, structure, hardness, non-destructive testing, pole magnetization.

S. G. Sandomirski, А. L. Valco, S. P. Rudenko (Joint Institute of Mechanical Engineering of the NAS of Belarus, Minsk, Belarus) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.  

1. Miheev M. N., Gorkunov E. S. (1993). Magnetic methods of structural analysis and non-destructive testing. Moscow: Nauka. [in Russian language]
2. Klyuev V. V. (Ed.) (2001). Non-destructive testing: a handbook. Book 2. Moscow: Mashinostroenie. [in Russian language]
3. Klyuev V. V. (Ed.), Muzhitskiy V. F., Gorkunov E. S., Shcherbinin V. E. (2006). Non-destructive testing: reference book: in 8 volumes. Vol. 6: in 3 books. Book. 1. Magnetic control methods. 2nd ed. Moscow: Mashinostroenie. [in Russian language]
4. Gorkunov E. S., Lapidus B. M., Zagaynov A. V. et al. (1998). Electromagnetic methods and quality control tools for surface hardening. Defektoskopiya, (7), pp. 7 – 13. [in Russian language]
5. Gorkunov E. S., Lapidus B. M. (1986). The use of differential magnetic permeability for quality control of surface hardening of steel products. Preprint. Sverdlovsk: UNTs AN SSSR. [in Russian language]
6. Gorkunov E. S., Lapidus B. M. (1987). Magnetic properties of two-layer ferromagnets as applied to quality control of surface hardening of products. Problemy prochnosti i plastichnosti. Trudy UNTs AN SSSR, pp. 103 – 110. Sverdlovsk: UNTs AN SSSR. [in Russian language]
7. Gorkunov E. S. (1992). Magnetic devices for monitoring the structure and mechanical properties of steel and cast iron products (review). Defektoskopiya, (10), pp. 3 – 35. [in Russian language]
8. Matyuk V. F., Osipov A. A., Kratirov V. B. (1997). Determination of the thickness of the hardened layer by changes in the shape of the hysteresis loop. Defektoskopiya, (9), pp. 32 – 41. [in Russian language]
9. Sandomirskiy S. G. (2006). Application of pole magnetization in magnetic structural analysis (review). Defektoskopiya, (9), pp. 36 – 64. [in Russian language]
10. Sandomirskiy S. G., Tsukerman V. L., Linnik I. I., Sandomirskaya E. G. (2004). Universal magnetic sorter and its application for solving problems of non-destructive testing. Kontrol'. Diagnostika, (8), pp. 27 – 31. [in Russian language]
11. Kostin V. N., Vasilenko O. N. (2012). Some new possibilities of local measurement of the coercive force of ferromagnetic objects. Defektoskopiya, (7), pp. 15 – 25. [in Russian language]
12. Gobov Yu. L., Zhakov S. V., Mihaylov A. V. (2017). Measurement of coercive force in a local area of the sample. Defektoskopiya, (11), pp. 27 – 32. [in Russian language]
13. Schastniy A. S., Osipov A. A. (2019). Assessment of the possibility of controlling the thickness of hardened layers by a pulsed magnetic method. Instrument making - 2019: materials of the 12th International Scientific and Technical Conference, pp. 316 – 318. Minsk: BNTU. [in Russian language]
14. Vonsovskiy S. V., Miheev M. N. (1957). Magnetic structural analysis. Zavodskaya laboratoriya, (10), pp. 1221 – 1226. [in Russian language]
15. Miheev M. N., Gorkunov E. S. (1981). Relationship of magnetic properties with the structural state of matter - the physical basis of magnetic structural analysis (review). Defektoskopiya, (8), pp. 5 – 21. [in Russian language]
16. Forster F., Zizelman G. (1954). Die schnelle serstorungsfreie Bestimmung der Blechanisotropie mildem Restpun¬ktpolverfahren. Zeitschrift fur Metallkde, 45, (4), pp. 245 – 249.
17. Forster F. (1958). Verfehren zur Messung der magnetischen Koerzitivkraft an ferromagnetischen Pruflingen. De Patent No. DBP 979544.
18. Arkad'ev V. K. (1934). Electromagnetic processes in metals. Part 1. Moscow–Leningrad: ONTI. [in Russian language]
19. Yanus R. I. (1946). Magnetic flaw detection. Moscow-Leningrad: Gostekhizdat. [in Russian language]
20. Forster F. (1954). Theoretische und experimentelle Grundlagen der elektromagnetischen Qualitatssortierung von Stahlteilen. 1V. Das Reast-feldverfahren. Zeitschrift fur Metallkunde, 45, (4), pp. 233 – 238.
21. Zagidulin R. V., Muzhitskiy V. F. (2005). Estimation of the coercive force of a material by the magnitude of the remanent magnetization field. Zavodskaya laboratoriya. Diagnostika materialov, Vol. 71, (2), pp. 25 – 28. [in Russian language]
22. Fedorishcheva E. E., Fridman L. A., Tabachnik V. P., Chernova G. S. (1982). Normal component of the residual magnetic field above the surface of a massive body. Defektoskopiya, (2), pp. 23 – 29. [in Russian language]
23. Sandomirskiy S. G. (2008). Analysis of the sensitivity of field and gradiometer sensors to the coercive force of the material of a product with a flat surface after pole magnetization. Kontrol'. Diagnostika, (5), pp. 31 – 41. [in Russian language]
24. Mel'guy M. A. (1980). Magnetic control of the mechanical properties of steels. Minsk: Nauka i tekhnika. [in Russian language]
25. Sandomirskiy S. G., Tsukerman V. L., Linnik I. I. et al. (1999). Sorting of ferromagnetic steels by brand using the device "Magnetic Sorter MS-1". Non-destructive testing and diagnostics: Abstracts of the 15th Russian Scientific and Technical Conference, Vol. 1. Moscow. [in Russian language]
26. Sandomirskiy S. G., Statsenko N. B., Sandomirskaya E. G., Grudnitskiy I. P. (2000). Results of the analysis of the possibility of sorting iron castings by structure using the device "Magnetic Sorter MS-1". Materials of the International Scientific and Technical Complex "New competitive and progressive technologies, machines in market conditions". Mogilev. [in Russian language]
27. Sandomirskiy S. G. (2004). Structural control of large-size nodular cast iron castings with the device "Magnetic Sorter MS-1". Lit'e i metallurgiya, 30(2), pp. 165 – 167. [in Russian language]
28. Sandomirskiy S. G., Tsukerman V. L., Pisarenko L. Z. (2005). Analysis of the prerequisites for quantitative control of ductile iron products by the magnetic method. Lit'e i metallurgiya, 34(2), pp. 143 – 148. [in Russian language]
29. Sorokin V. G. (Ed.), Volosnikova A. V., Vyatkin S. A. et al. (1989). Brand of steels and alloys. Moscow: Mashinostroenie. [in Russian language]
30. Surface hardened layers of metal parts. Thickness measurement methods. (2013). By Standard No. STB 2307–2013. Minsk: Gosstandart. [in Russian language]

 

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