RESEARCH AND IMPROVEMENT OF THE PRODUCTION TECHNOLOGY OF HIGH-MANGANESE STEEL 110G13L FOR RAILWAY FROGS

Authors

  • Urazbayev T.T. Senior lecturer of the Department of Materials Science and Mechanical Engineering, Tashkent State Transport University
  • Tursunov N.Q. PhD, Dr., Head of the Department of Materials Science and Mechanical Engineering, Tashkent State Transport University.
  • Yusupova D.B. Student, North Caucasian Institute of Mining and Metallurgy
  • Valieva D. Sh. Assistant teacher of the Department of Materials Science and Mechanical Engineering, Tashkent State Transport University
  • Erkinov S. M. Assistant of Tashkent State Technical University named after Islam Karimov Tashkent, The Republic of Uzbekistan
  • Maturaev M.O. Bachelor student of the Department of Materials Science and Mechanical Engineering, Tashkent State Transport University, Tashkent, The Republic of Uzbekistan

DOI:

https://doi.org/10.17605/OSF.IO/W43SB

Keywords:

complex deoxidation, oxygen, non-metallic inclusions

Abstract

This article is devoted to the method of calculating the joint complex deoxidation of steel grade 110G13L. Steel grade 110G13L was chosen as the metal under study. The industrial demand for high manganese steel castings is constantly ­growing. At the same time, the requirements for them are increasing, and the prices for manganese-containing alloying materials tend to increase continuously. Therefore, both improving the quality indicators of castings from high-manganese steels and reducing the cost of their manufacture are relevant. Such a complex problem can be solved in different ways. One of them is the improvement of the technology of deoxidation and modification of steel.

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Published

2022-06-04

How to Cite

Urazbayev T.T., Tursunov N.Q., Yusupova D.B., Valieva D. Sh., Erkinov S. M., & Maturaev M.O. (2022). RESEARCH AND IMPROVEMENT OF THE PRODUCTION TECHNOLOGY OF HIGH-MANGANESE STEEL 110G13L FOR RAILWAY FROGS. Web of Scientist: International Scientific Research Journal, 3(6), 10–19. https://doi.org/10.17605/OSF.IO/W43SB

Issue

Vol. 3 No. 6 (2022): wos

Section

Articles