Modern Approaches to Clean Steel Production: Challenges, Methods, and Prospects

Article Sidebar

View Article
Published: 2025-03-27

Main Article Content

Utkir Mirzakamolovich Khalikulov
Associate Professor, Almalyk Branch, National University of Science and Technology «MISIS», Almalyk, Uzbekistan

Abstract

Modern metallurgical technologies are aimed at improving the purity of steels, as the content of non-metallic inclusions significantly affects the mechanical properties and operational reliability of the metal. In particular, titanium heterogeneity and secondary oxidation present serious challenges in the production of high-quality steels. These defects lead to deterioration in plasticity, fatigue strength, and corrosion resistance, reducing the service life of products.

Article Details

Issue

Vol. 3 No. 3 (2025): Innovative: International Multi-disciplinary Journal of Applied Technology

Section

Articles

How to Cite

Modern Approaches to Clean Steel Production: Challenges, Methods, and Prospects. (2025). Innovative: International Multidisciplinary Journal of Applied Technology (2995-486X), 3(3), 111-115. https://multijournals.org/index.php/innovative/article/view/3308

References

1. «ASTM B883-17. Standard Specification for Metal Injection Molded (MIM) Materials». 2017 г.

2. K. Narita, Crystal structure and properties of nonmetallic inclusions. Moscow: Metallurgy, 1969.

3. L. Habraken, J. L. de Brouwer, и A. Schrader, De Ferrimetallographia. Presses Academiques Européennes, 1966.

4. V. I. Yavoysky, Vygotyung, и L. F. Gorokhov, «Deoxidation of carbonaceous and low-alloy steels», Steel, вып. 3, сс. 228–233, 1970.

5. B. H. Khan и N. Ya. Ishchuk, Deoxidation, degassing, alloying of steel. Moscow: Metallurgy, 1965.

6. A. V. Parkhomenko, A. P. Amosov, и A. R. Samboruk, «Development of Domestic Powder Granulate with a Polyformaldehyde-Based Binder for MIM Technology», Russ. J. Non-Ferr. Met., т. 56, вып. 1, сс. 68–72, 2015, doi: 10.3103/S1067821215010149.

7. A. J. Coleman и others, «Effect of Particle Size Distribution on Processing and Properties of Metal Injection Moulded 4140 and 4340». 2011 г. [Онлайн]. Доступно на: https://www.materials.sandvik/globalassets/global/effect-of-particle-size-distribution-on-rocessing-and-properties-of-mim-4140-and-4340.pdf

8. A. N. Morozov, Hydrogen and nitrogen in steel. Moscow: Metallurgy, 1968.

9. V. A. Lutsenko и others, «Influence of Cooling Rate on Structure Formation and Properties of Carbon Chromium Molybdenum Steel», Met. Sci. Heat Treat. Met., вып. 3, сс. 56–60, 2009.

10. R. M. German, «Metal Powder Injection Molding (MIM): Key Trends and Markets», в Handbook of Metal Injection Molding, R. M. German, Ред., Woodhead Publishing Limited, 2012, сс. 1–25. doi: 10.1533/9780857096234.1.

11. A. B. Semenov, A. E. Gavrilenko, и B. I. Semenov, «Next-generation Casting Technologies and Their Adaptation and Development in Russia: I. At the Beginning of a New Technological Paradigm», Metally, вып. 13, сс. 1231–1240, 2016, doi: 10.1134/S0036029516130152.

12. R. Kisling и N. Lange, Nonmetallic inclusions in steel. Moscow: Metallurgy, 1968.

13. V. A. Dovydenkov и O. S. Zvereva, «Process of Producing Parts of Complex Shape by Molding and Sintering Iron and Iron Oxide Powders with a Binder», Powder Metall. Met. Ceram., т. 52, вып. 9–10, сс. 594–599, 2014, doi: 10.1007/s11106-014-9565-7.

14. V. G. Sorokin и others, Steel and Alloy Handbook. Moscow: Mashinostroenie, 1989.

15. BASF, «Technical Specifications of Catamold 42CrMo4». 2018 г. [Онлайн]. Доступно на: http://www.catamold.de/cm/internet/Catamold/en/content/Microsite/Catamold/Technische_Informationen_/Technische_Specifications_Overview