Electron beam modification of boride diffusion layers on the surface of steels 45 and U10

S. А. Lysykh; Лысых С. А.; P. V. Moskvin; Москвин П. В.; М. S. Vorobyov; Воробьев М. С.; V. N. Kornopoltsev; Корнопольцев В. Н.; U. L. Mishigdorzhiyn; Мишигдоржийн У. Л.; Yu. P. Kharaev; Хараев Ю. П.; А. S. Milonov; Милонов А. С.

doi:10.31857/S1028096024120091

Electron beam modification of boride diffusion layers on the surface of steels 45 and U10

Авторлар: Lysykh S.А.¹, Moskvin P.V.², Vorobyov М.S.², Kornopoltsev V.N.³, Mishigdorzhiyn U.L.¹, Kharaev Y.P.⁴, Milonov А.S.¹
Мекемелер:
1. Institute of Physical Materials Science SB RAS
2. Institute of High Current Electronics SB RAS
3. The Baikal Institute of Nature Management SB RAS
4. East Siberia State University of Technology and Management SB RAS
Шығарылым: № 12 (2024)
Беттер: 78-85
Бөлім: Articles
URL: https://bakhtiniada.ru/1028-0960/article/view/286106
DOI: https://doi.org/10.31857/S1028096024120091
EDN: https://elibrary.ru/QWTTFF
ID: 286106

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Аннотация

We present the results of surface hardening of samples made of steels 45 and U10 by complex saturation with boron and copper, as well as subsequent processing of the layer with an electron beam using a source with a plasma cathode in order to increase a number of physical and mechanical properties of boride layers, in particular ductility and wear resistance. A comparative analysis of the structure of the diffusion layer after borocoppering and subsequent modification of this layer with an electron beam was carried out. The morphology of the diffusion layer was analyzed. Microhardness, elemental and phase compositions were studied. The plasticity of the resulting diffusion layers was evaluated before and after electron beam processing.

Негізгі сөздер

borocoppering, steel 45, steel U10, diffusion layer, microstructure, microhardness, plasticity, electron beam processing

Толық мәтін

Авторлар туралы

S. Lysykh

Institute of Physical Materials Science SB RAS

Хат алмасуға жауапты Автор.
Email: lysyh.stepa@yandex.ru
Ресей, Ulan-Ude

P. Moskvin

Institute of High Current Electronics SB RAS

Email: lysyh.stepa@yandex.ru
Ресей, Tomsk

М. Vorobyov

Institute of High Current Electronics SB RAS

Email: lysyh.stepa@yandex.ru
Ресей, Tomsk

V. Kornopoltsev

The Baikal Institute of Nature Management SB RAS

Email: lysyh.stepa@yandex.ru
Ресей, Ulan-Ude

U. Mishigdorzhiyn

Institute of Physical Materials Science SB RAS

Email: lysyh.stepa@yandex.ru
Ресей, Ulan-Ude

Yu. Kharaev

East Siberia State University of Technology and Management SB RAS

Email: lysyh.stepa@yandex.ru
Ресей, Ulan-Ude

А. Milonov

Institute of Physical Materials Science SB RAS

Email: lysyh.stepa@yandex.ru
Ресей, Ulan-Ude

Әдебиет тізімі

Хараев Ю.П., Грешилов А.Д., Куркина Л.А., Федотов Н.И., Бутуханов В.А. // Обработка металлов (технология–оборудование–инструменты). 2012. № 2 (55). С. 62.
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Гуляшинов П.А. // Обработка металлов (технология–оборудование–инструменты). 2022. № 2 (24). С. 91. http://doi.org/10.17212/1994-6309-2022-24.2-91-101
Мустафина Т.В., Мустафин Г.А., Марширов И.В. // Ползуновский вестн. 2015. № 3. С. 15. http://elib.altstu.ru/journals/Files/archive/pv/2015/PV_3_2015.pdf
Крукович М.Г. // Евразийский союз ученых. 2020. № 10 (79). С. 30. http://doi.org/10.31618/ESU/2413-9335.2020.6.79.1075
Комаров Д.В., Коновалов С.В., Жуков Д.В., Виноградов И.С., Панченко И.А. // Ползуновский вестн. 2022. № 3. С. 204. http://doi.org/10.25712/ASTU.2072-8921.2022.03.028
Астрашаб Е.В., Щербаков В.Г. // XXIII Туполевские чтения (Школа молодых ученых). Т. 1. Казань: Изд-во КНИТУ-КАИ, 2017. С. 230.
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Vorobyov M.S., Moskvin P.V., Shin V.I., Koval N.N., Ashurova K.T., Doroshkevich S.Yu., Devyatkov V.N., Torba M.S., Levanisov V.A. // Письма в ЖТФ. 2021. Т. 47. Вып. 10. С. 38. http://doi.org/10.21883/PJTF.2021.10.50972.18719
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2. Fig. 1. Scheme of processing in a pulsed electron-beam setup (a) and external appearance of the “SOLO” setup (ISE SB RAS) (b): 1 — plasma cathode; 2 — electron beam; 3 — lens; 4 — quartz glass; 5 — fiber optic cable; 6 — sample; 7 — thermocouple; 8 — manipulator table; 9 — multimeter; 10 — high-speed infrared pyrometer; 11 — oscilloscope.

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3. Fig. 2. Characteristic oscillograms of the discharge current Id (1) of the plasma cathode, the current in the accelerating gap circuit of the electron source Ig (2) and the output signal of the high-speed pyrometer T [°C] (3): T = 300 + 400ncells, where ncells is the number of cells.

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4. Fig. 3. SEM image of the diffusion layer of steels 45 (a) and U10 (b) after complex surface saturation with boron and copper.

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5. Fig. 4. SEM image of a sample of grade 45 steel after copper boron plating followed by electron beam treatment (a) and an enlarged area highlighted by a square (b).

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6. Fig. 5. SEM image of a U10 steel sample after copper boron plating followed by electron beam treatment (a) and an enlarged area highlighted by a square (b).

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7. Fig. 6. Distribution of microhardness of samples of steels 45 (1, 2) and U10 (3, 4) after chemical-thermal treatment (1, 3) and copper boron plating followed by electron beam treatment (2, 4).

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8. Fig. 7. Diffraction patterns of steel samples 45 (a) and U10 (b).

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9. Fig. 8. SEM images of steels 45 (a, c) and U10 (b, d) during measurement of ultimate ductility after: a – boriding; b – copper boron plating; c, d – copper boron plating followed by electron beam processing.

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