Aspects of modification and ccrystallization of0 high-alloy steels
Khasanov Abdurashid Solievich , Professor, Dr. Sci., Almalyk BranchNational University of Science and Technology "MISIS", Almalyk, Uzbekistan Utkir Mirzakamolovich Khalikulov , Associate Professor, Almalyk Branch National University of Science and Technology "MISIS", Almalyk, Uzbekistan Djeparova Medine Narimanovna , Student Almalyk Branch National University of Science and Technology "MISIS", Almalyk, UzbekistanAbstract
This article examines current approaches to modification and crystallization, as well as their practical applications in the field of materials science. An analysis of key modification tasks is provided, including the management of material structures, enhancement of their mechanical and chemical properties, and optimization of thermal and electrical characteristics.
An overview of contemporary research dedicated to steel crystallization processes is presented, with an emphasis on the use of rare earth elements, nanoparticles, and computer modeling methods. Experimental techniques for studying crystallization and modification processes, such as X-ray diffraction, scanning electron microscopy, and differential thermal analysis, are discussed.
The article also presents the results of studies on the effect of ultrafine powders on the structure and properties of materials, as well as the determination of the optimal powder concentration in a transporting gas medium. In conclusion, the importance of further improving modification methods to create innovative materials with specific characteristics is highlighted.
Keywords
Modification, crystallization, nanoparticles
References
Kakhovsky N.I. Electrogas welding of corrosion-resistant ferritic-austenitic steels type 21-3 and 21-5 / N.I. Kakhovsky, K.A. Yushchenko, Z.V. Yushkevich // Automatic Welding – 1963. – No. 12. – pp. 49-57.
Kakhovsky N.I. Welding of corrosion-resistant austenitic chromium-nickel-manganese-nitrogen steel 0Kh17N5G9AB (ZP55) / K.A. Yushchenko, V.G. Fartushny, Z.V. Yushkevich // Automatic Welding – 1963. – No. 7. – pp. 21-28.
Poletika I.M. Formation of corrosion-resistant coatings by cladding in a beam of relativistic electrons / I.M. Poletika, M.G. Golkovsky, M.V. Perovskaya, E.N. Belyakov, R.A. Salimov, V.A. Bataev, Y.A. Sazanov // Prospective Materials – 2006. – No. 2. – pp. 80-86.
Tsvirkun O.A. Hardening and protection of the surface of steel Kh12 by electro-explosive alloying / O.A. Tsvirkun, E.A. Budovskikh, E.E. Rudneva, V.F. Goryushkin, V.E. Gromov // Journal of Fundamental Materials – 2007. – Vol. 1. – No. 3. – pp. 117-119.
Goryushkin I.F. Relative resistance of various tool and corrosion-resistant steels to mechanical and chemical effects from pharmaceutical preparations / I.F. Goryushkin, S.A. Lezhayeva, A.A. Permyakov, N.N. Shevchenko // Bulletin of the Mining and Metallurgical Section of the Russian Academy of Natural Sciences. Metallurgy Division – 2002. – No. 11. – pp. 59-65.
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Copyright (c) 2025 Khasanov Abdurashid Solievich, Utkir Mirzakamolovich Khalikulov, Djeparova Medine Narimanovna

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