INVOLMENT OF METALLIC NICKEL WASTE IN THE CHARGE FOR THE SMELTING OF HEAT-RESISTANT NICKEL ALLOYS

Authors

  • Tetiana Nesterenko Zaporizhzhia National University https://orcid.org/0000-0001-7900-8512
  • Olha Nesterenko Zaporizhzhia Machine-Building Design Bureau IVCHENKO-PROGRESS State Enterprise Named after Academician A.G. Ivchenko
  • Lidia Didenko Zaporizhzhia Machine-Building Design Bureau IVCHENKO-PROGRESS State Enterprise Named after Academician A.G. Ivchenko
  • Serhii Ivannikov Zaporizhzhia National University

DOI:

https://doi.org/10.30888/2663-5712.2024-25-00-041

Keywords:

casting, heat-resistant nickel alloy, directional crystallization, metallic nickel waste, melting, microstructure

Abstract

An analysis of modern technologies and equipment for smelting heat-resistant nickel alloys, ways of processing waste from the production and consumption of nickel with their involvement in a closed cycle was carried out. The technology of refining electr

Metrics

Metrics Loading ...

References

Reed, R.C. (2006), The Superalloys. Fundamentals and Applications, University Press, Cambridge.

Haiduk, S.V., Kononov, V.V., Fedorchenko, Yu.M., Haiduk, O.S. (2007), “Vysokotemperaturna koroziya monokrystaliv nikelevykh splaviv, shcho mistyatʼ tantal” [High-temperature Corrosion of Single Crystals of Nickel Alloys Containing Tantalum], Herald of Engine Construction, no. 1, pp. 150−154.

Mudd Jowitt (2014), “A Detailed Assessment of Global Nickel Resource Trends and Endowments”, Economic Geology, v. 109, pp. 1813−1841.

Sarioglu, C., Stinner, C., Blanchere, J.R., Meier, G.H. (1996), “The Control of Sulfur Content in Nickel-base, Single Crystal Superalloys and its Effect on Cyclic Oxidation Resistance”, Superalloys, pp. 71–80.

Johnson, Tim (2017), “Is it Time to Recycle More Nickel?”, Stainless Steel World Publisher, June, pp. 20−21. URL: https://stainless-steel-world.net/is-it-time-to-recycle-more-nickel/ (data zvernennya: 10.05.2024).

Niskelʼs Hidden Green Potential, Mining Magazine : eMagazine, (2021), April, pp. 22−24.

Grabovskyi, V.Ya., Lysytsia O.V. (2020), Novitni tekhnolohiyi zahotivelʼnoho vyrobnytstva: navch. posib. [The latest technologies of procurement production: textbook], NU Zaporizhzhia Polytechnic, Zaporizhzhia, Ukraine.

Nesterenko, T.M. (2012), Vyrobnytstvo splaviv kolʼorovykh metaliv: metod. Vkazivky do samostiynoyi roboty ta testuvannya [Production of Alloys of Non-ferrous Metals: instruction for independent work and testing], ZGIA, Zaporizhzhia, Ukraine.

Matsugi, K., Murata, Y., Morinaga, M., Yukawa, N. (1992), “Realistic Advancement for Nickel-based Single Crystal Superalloys by the d-electrons Concept”, Superalloys : Int. Symposium, pp. 307–316.

Tsivirko, É.I., Zhemanyuk, P.D., Naumik, V.V., Lunev, V.V. (2001), “Crystallization Processes, Structure and Properties of Castings from High-temperature Nickel Alloys”, Metal Science and Heat Treatment, 43(9-10), pp. 382-386.

ASTM E1019–11 (2011), Standard Test Method for Determination of Carbon, Sulfur, Nitrogen and Oxygen in Steel, Iron, Nickel and Cobalt Alloys by Various Combustion and Fusion Techniques, USA.

Література:

Reed R.C. The superalloys. Fundamentals and Applications. Cambridge : University Press. 2006. 372 p.

Гайдук С. В., Кононов В. В., Федорченко Ю. М., Гайдук О. С. Високотемпературна корозія монокристалів нікелевих сплавів, що містять тантал. Вісник двигунобудування. 2007. № 1. С. 150−154.

Mudd Jowitt. A detailed assessment of global nickel resource trends and endowments. Economic Geology. 2014. V. 109. P. 1813−1841.

Sarioglu C., Stinner C., Blanchere J. R., Meier G. H. The Control of Sulfur Content in Nickel-base, Single Crystal Superalloys and its Effect on Cyclic Oxidation Resistance. Superalloys. 1996. P. 71–80.

Johnson Tim. Is it time to recycle more nickel? Stainless Steel World Publisher. 2017. June. P. 20−21. URL: https://stainless-steel-world.net/is-it-time-to-recycle-more-nickel/ (дата звернення: 10.05.2024).

Niskelʼs hidden green potential. Mining Magazine : eMagazine. 2021. April. P. 22−24.

Грабовський В. Я., Лисиця О. В. Новітні технології заготівельного виробництва : навч. посіб. Запоріжжя : НУ «Запорізька політехніка», 2020. 112 с.

Нестеренко Т. М. Виробництво сплавів кольорових металів : метод. вказівки до самостійної роботи та тестування. Запоріжжя: ЗДІА, 2012. 121 с.

Matsugi K., Murata Y., Morinaga M., Yukawa N. Realistic Advancement for Nickel-based Single Crystal Superalloys by the d-electrons Concept. Superalloys : Int. Symposium. 1992. Р. 307–316.

Tsivirko É. I., Zhemanyuk P. D., Naumik V. V., Lunev V. V. Crystallization processes, structure and properties of castings from high-temperature nickel alloys. Metal Science and Heat Treatment. 2001. V. 43(9-10). P. 382-386.

ASTM E1019–11. Standard Test Method for Determination of Carbon, Sulfur, Nitrogen and Oxygen in Steel, Iron, Nickel and Cobalt Alloys by Various Combustion and Fusion Techniques. USA, 2011. 27 p.

Downloads

Published

2024-05-30

How to Cite

Нестеренко, Т., Нестеренко, О., Діденко, Л., & Іванніков, С. (2024). INVOLMENT OF METALLIC NICKEL WASTE IN THE CHARGE FOR THE SMELTING OF HEAT-RESISTANT NICKEL ALLOYS. SWorldJournal, 1(25-01), 36–49. https://doi.org/10.30888/2663-5712.2024-25-00-041

Issue

No. 25-01 (2024)

Section

Articles

License

Copyright (c) 2024 Authors

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Most read articles by the same author(s)