EXPERIENCE IN OBTAINING AND USING SHS LIGATURES BASED ON CHROMIUM NITRIDES FOR SMELTING STAINLESS STEEL

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Abstract

A brief overview of the current global production of stainless steels is provided. It is shown that in China, the leading producer of stainless steel, the share of nitrogen-containing stainless metal smelting in 2023 exceeded 30% and amounted to 11.5 million tons. For alloying such metal with nitrogen, chromium nitride-based ligatures are in demand – nitrided metallic chromium and nitrided ferrochrome. This paper presents the experience of obtaining low-carbon chromium-based ligatures with an increased nitrogen content using the SHS method. The design of a special flow-through SHS reactor is proposed and a technology for nitriding aluminothermic chromium and ferrochrome powders with a particle size of up to 400 μm in a reacting gas flow is developed. As a result of the experimental studies, the fundamental possibility of their nitriding in the co-combustion mode was established and the dependences of the combustion rate and nitrogen content in the synthesis products on the pressure and flow rate of the reacting gas were revealed. Tests of the synthesized high-nitrogen ferrochrome were conducted during the experimental smelting of duplex steel UNS S32750 (Super Duplex 25Cr) under the conditions of the Zlatoust Metallurgical Plant. The results of the pilot industrial smelting of the metal showed that the developed alloying material provides a stable nitrogen concentration in the metal, within 0.28–0.30 mass %, with the actual nitrogen absorption by the steel melt of 82–86%.

About the authors

I. R Manashev

NTPF Etalon LTD

Email: mir@ntpf-etalon.ru
Magnitogorsk, Russia

M. Kh Ziatdinov

NTPF Etalon LTD

Email: email@example.com
Magnitogorsk, Russia

E. M Manasheva

Nosov State Technical University

Email: email@example.com
Magnitogorsk, Russia

I. V Makarova

Nosov State Technical University

Email: email@example.com
Magnitogorsk, Russia

References

  1. Svyazhin, A.G. Nitrogen and high-nitrogen steels. Industrial technologies and properties / A.G. Svyazhin, L.M. Kaputkina // News of universities. Ferrous Metallurgy. 2019. V.62 (3). P.173–187. https://doi.org/10.17073/0368-0797-2019-3-173-187.
  2. Ghali, S.N. Production and application of advanced high nitrogen steel / S.N. Ghali, A. Ahmed, M. Eissa, H. El-Faramawy, M. Mishreky, T. Mattar // Intern. Conf. Sci. Tech. Ironmaking and Steelmaking. 16–18 Dec. 2013. Jamshedpur, India.
  3. Kostina, M.V. Nitrogen-containing steels and methods of their production / M.V. Kostina, L.G. Rigina // News of universities. Ferrous Metallurgy. 2020. V.63 (8). P.606–622. https://doi.org/10.17073/0368-0797-2020-8-606-622.
  4. Ziatdinov, M.Kh. From the history of nitrided ferroalloys / M.Kh. Ziatdinov // News of universities. Ferrous Metallurgy. 2020. V.63(10). P.773–781. https://doi.org/10.17073/0368-0797-2020-10-773-781.
  5. Pat. CN No.105238989A. Int. cl. C22C 35/00. Production method for micro-carbon nitrogen containing ferro-chromium / Huang Qihui Jiang, Rongkui Hu Li ; declared on 10.10.2015 ; published on 13.01.2016.
  6. Qingqing Hu. Preparation of ferrochromium nitride via reduction and nitridation of chromite spinel with ammonia gas / Hu Qingqing, Ma Donglai, Liu Yongjie, Huang Qingyun, You Zhixiong, Lv Xuewei // Powder Technology. 2021. July. V.386. P.449–456.
  7. Bukreev, A.E. Development of technology for obtaining nitrided chromium-containing ligatures by the method of self-propagating high-temperature synthesis : dissertation ... candidate of technical sciences. 05.16.02 / A.E. Bukreev. Magnitogorsk, 2010. 139 p.
  8. Manashev, I.R. Technology of production of nitrided ferroalloys by self-propagating high-temperature synthesis / I.R. Manashev, T.O. Gavrilova, I.M. Shatokhin, M.Kh. Ziatdinov // Theory and technology of metallurgical production. 2019. №4(31). P.4–11.
  9. Ziatdinov, M.Kh. Thermally coupled combustion synthesis of composite ferroalloys / M.Kh. Ziatdinov // CIS Iron and Steel Rev. 2024. V.28. P.26–32.
  10. Ziatdinov, M.Kh. Combustion of chromium in a coflow of nitrogen / M.Kh. Ziatdinov // Physics of combustion and explosion. 2016. V.52. №4. P.51–60.
  11. Pat. Russian Federation №2 798 491. MPK C22C 1/04, B22F 3/23, C22C 29/16. Method for producing a composite alloy based on chromium nitrides / M.Kh. Ziatdinov, I.R. Manashev ; declared on 07.10.2022.
  12. Aldushin, A.P. Propagation of an exothermic reaction wave in a porous medium during gas blowing / A.P. Aldushin, B.S. Seplyarsky // Reports of the USSR Academy of Sciences. 1978. V.241. №1. P.72–75.
  13. Aldushin, A.P. To the theory of filtration combustion of metals / A.P. Aldushin, A.G. Merzhanov, B.S. Seplyarsky // Physics of combustion and explosion. 1976. V.12. №3. P.323.
  14. Merzhanov, A.G. Combustion processes and synthesis of materials / A.G. Merzhanov. – Chernogolovka : ISMAN Publishing House, 1998. 512 p.
  15. Sedukhin, V.V. Clarification of the expression for calculating the limiting solubility of nitrogen in duplex steels / V.V. Sedukhin, I.V. Chumanov // Vestnik of YuRGU. Ser. Metallurgy. 2022. V.22. №4. P.14–20. DOI : 10.14529/met220402.
  16. Efimushkin, A.S. Basic technological methods in the production of Super Duplex 25Cr steels and features of their manufacturing technology under the conditions of ZMZ LLC / A.S. Efimushkin, I.V. Chumanov, A.N., Anikeev, V.V. Sedukhin // Metallurgist. 2022. №4. P.31–36.

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