Журналы →  Chernye Metally →  2021 →  №11 →  Назад

5 years of the united department “Metallurgy and ma-terials processing technology” of Sukhoi State technical University of Gomel
Название Modification of metallic dispersions during high energy processing
DOI 10.17580/chm.2021.11.07
Автор M. N. Vereshchagin, S. N. Tselueva, M. Yu. Tseluev
Информация об авторе

Sukhoi State Technical University of Gomel (Gomel, Belarus):

M. N. Vereshchagin, Dr. Eng., Professor, Dept. of Metallurgy and Materials Processing Technology
M. Yu. Tseluev, Cand. Eng., Associate Prof., Dept. of Mechanical Engineering Technology, e-mail: tseluev@gmail.com
S. N. Tselueva, Mast. Tech., Senior Lecturer, Dept. of Metallurgy and Materials Processing Technology, e-mail: tselueva@gmail.com

Реферат

The results of the authors’ own experimental studies in the current and promising scientific direction are presented – the study of the formation of the structure, crystal structure and properties of products obtained in the process of high-speed quenching from the melt of amorphizing iron-based alloys, attritor dispersion of metal fibers of amorphizing alloys after high-speed quenching of the melt and modification of metallic dispersions during pulsed laser processing. It has been shown that an important and urgent task of fundamental research on amorphous and nanocrystalline alloys obtained by ultrafast quenching from the liquid phase is the creation of new effective methods for targeted control of the geometry and quality of products with a microcrystalline and amorphous structure, based on the establishment of a functional relationship between the technological parameters of the created processes and the physical phenomena occurring during the shaping of products, and aimed at the creation of scientifically grounded technologies and highly efficient equipment for the production of a wide range of products and semi-finished products with specified properties for various purposes.

Ключевые слова Amorphizable alloy, nanocrystalline alloy, high-speed melt quenching (HRQ), attritor dispersion, pulsed laser surface treatment (PLST), metal fiber, metal powder, structure, phase composition, crystal structure, annealing, microhardness, strength
Библиографический список

1. Glezer А. М., Blinova E. N., Permyakova I. E., Shurygina N. A. On the issue of the physical criterion of the temperature-time stability of the amorphous alloys mechanical behavior. Deformation and destruction of materials. Moscow: Nauka i tekhnologiya. 2015. pp. 2-6.
2. Glezer А. М., Permyakova I. E., Fedorov V. A. Features of the cracks formation in the zone of laser annealing of amorphous alloys. Materials Physics and Mechanics. Saint Petersburg: FGBUN Institut problem mashinovedeniya RAN. 2016. Vol. 25. pp. 62-67.
3. Glezer А. М. Principles of creating new generation multifunctional structural materials. Uspekhi fizicheskikh nauk. 2012. Vol. 182. No. 5. pp. 559-566.
4. Goranskiy G. G., Tolstyak E. N. Development of technologies for flame deposition of wearresistant coatings on parts of equipment for metallurgical production. Lityo i metallurgiya. 2005. No. 4 (36). pp. 205-208.

5. Lovshenko G. F., Lovshenko F. G. Regularities of the formation of phase composition, structure and properties of mechanically alloyed materials: monograph. Mogilev: Belorussko-Rossiyskiy Universitet, 2016. 420 p.
6. Lovshenko G. F., Lovshenko F. G., Fedosenko A. S. Regularities of the formation of mechanically alloyed powders based on metals for thermal gas coatings. Vestnik Belorussko-Rossiyskogo Universiteta. 2017. No. 2 (55). pp. 56-68.
7. Mitin B. S., Vasilyev V. A. Powder metallurgy of amorphous and microcrystalline materials. Moscow: Metallurgiya, 1992. 128 p.
8. Permyakova I. E., Glezer A. M., Grigorovich K. V. Deformation behavior of amorphous alloys of the Co-Fe-Cr-Si-B system at the initial stages of megaplastic (severe) deformation. Izvestiya RAN. Seriya fizicheskaya. 2014. Vol. 78. p. 1246.
9. Permyakova I. E., Glezer A. M., Ivanov A. A., Shelyakov A. V. Application of laser design of amorphous alloys based on iron and cobalt to create amorphous-crystalline composites. Izvestiya vysshikh uchebnykh zavedeniy. Fizika. 2015. Vol. 58. pp. 115-122.
10. Advanced materials and technologies: monograph: in 2 volumes. Edited by Klubovich V. V. Vitebsk: UO «VGTU». 2017. Vol. 2. 509 p.
11. Advanced materials and technologies: monograph: in 2 volumes. Edited by Rubanik V. V. Vitebsk: UO «VGTU». 2019. Vol.1. 325 p.
12. Kovneristyi Yu. K. Method for making amorphous belt of metal alloys by spinning process. Patent RF, No. 2277995. Applied: 02.03.2005. Published: 20.06.2006. Bulletin No. 17. 2006. p 271.
13. Suzuki К., Fuzimori Kh., Hashimoto K. Amorphous metals. Edited by Masumoto Ts. Translated from Japan. Moscow: Metallurgiya, 1987. 328 p.
14. Cheng Y. Q., Ma E. Atomic-level structure and structure-property relationship in metallic glasses. Progress in Materials Science. 2011. Vol. 56. pp. 379-473.
15. Vereshchagin M. N., Goranskiy G. G., Tseluev M. Yu., Kirilyuk S. I. Tselueva S. N. Features of the formation of the structure and mechanical properties of amorphized iron-based alloys. Izvestiya NAN Belarusi. Seriya fiziko-tekhnicheskikh nauk. 2006. No. 4. pp. 29-33.
16. Vereshchagin M. N., Tseluev M. Yu., Tselueva S. N. Structure formation of precision alloys during rapid quenching from the melt. Vestnik GGTU imeni P. O. Sukhogo. Gomel. 2019. No. 1. pp. 41-49.
17. Vereshchagin M. N., Goranskiy G. G., Tselueva S. N., Kirilyuk S. I. Method for producing dispersed metallic material. Patent RB, No. 14214. Applied: 27.05.2009. Published: 30.04.2011. Bulletin No. 6, 2010. p. 17.
18. Vereshchagin M. N., Goranskiy G. G., Tselueva S. N. Attritor dispersion of melt-quenched fibers. Materialy. Tekhnologii. Instrumenty. 2012. Vol. 17, No. 4. pp. 54-59.
19. Vereshchagin M. N., Goranskiy G. G., Tselueva S. N. The role of attritor dispersion in the formation of the metastable state of iron-based alloys. Materialy. Tekhnologii. Instrumenty. 2012. Vol. 17, No. 4. pp. 60-64.
20. Vereshchagin M. N., Tselueva S. N., Tseluev M. Yu. Modification of surface layers of metal parts by pulsed laser treatment. Lityo i metallurgiya. 2020. No. 1. pp. 99-109.
21. Vereshchagin M. N., Tseluev M. Yu., Tselueva S. N. Thermophysical analysis of modification of the workpiece surface by laser radiation. Lityo i metallurgiya. 2019. No. 2. pp. 92-98.

Language of full-text русский
Полный текст статьи Получить
Назад