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Title

Kinetics of Solidification and Crystallization of Liquid Axial Zone of Fe-C Alloys in Cylindrical Molds

Journal title

Archives of Foundry Engineering

Yearbook

2024

Volume

Accepted articles

Authors

Khrychikov, V. ; Semenov, O. ; Aftandiliants, Y. ; Gnyloskurenko, S. ; Semenova, T. ; Meniailo, H.

Affiliation

Khrychikov, V. : Ukrainian State University of Science and Technologies, Ukraine ; Semenov, O. : Progress-tech, Ukraine ; Aftandiliants, Y. : National University of Life and Environmental Sciences of Ukraine ; Aftandiliants, Y. : Physical and Technological Institute of Metals and Alloys, National Academy of Sciences of Ukraine ; Gnyloskurenko, S. : Physical and Technological Institute of Metals and Alloys, National Academy of Sciences of Ukraine ; Semenova, T. : Ukrainian State University of Science and Technologies, Ukraine ; Meniailo, H. : Ukrainian State University of Science and Technologies, Ukraine

Keywords

Fe-C alloys ; Solidification ; Kinetics ; Pour point ; Modification ; Axial zone ; Liquid-solid

Divisions of PAS

Nauki Techniczne

Publisher

The Katowice Branch of the Polish Academy of Sciences

Bibliography

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  3. Stefanescu, D.M. (2002). Science and Engineering of Casting Solidification. Springer.
  4. Escobar, A., Celentano, D., Cruchaga, M. & Schulz, B. (2015). On the effect of pouring temperature on spheroidal graphite cast iron solidification. Metals. 5(2), 628-647. DOI:10.3390/met5020628.
  5. Fesenko, E.V., Mogylatenko, V.G., Fesenko, A.N., Kosyachkov, V.A. & Fesenko, M.A. (2015). Manufacture of two-layers and double-sided iron castings with differential structure and properties. EUREKA: Physics and Engineering. 1, 55-59.
  6. Ciesielski, M. & Mochnacki, B. (2019). Comparison of approaches to the numerical modelling of pure metals solidifi cation using the control volume method. International Journal of Cast Metals Research. 32(4), 213-220. https://doi.org/10.1080/13640461.2019.1607650.
  7. Moumeni, (2013). Solidification of cast iron - A study on the effect of microalloy elements on cast iron. Technical University of Denmark. Denmark: Department of Mechanical Engineering.
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  10. Gulyaev, B.B., Magnitsky, O.N. (1957). Physico-chemical processes of ingot solidification. Physico-chemical fundamentals of steel production. In III Conference on the Physical and Chemical Foundations of steel production. (pp. 659–682). Moscow: Academy of Sciences of the USSR. Institute of Metallurgy named after A.A. Baykov.
  11. Gulyaev, B.B. (1950). Hardening and heterogeneity of steel. Moscow-Leningrad: Metallurgizdat.
  12. Stefan, J. (1890). Monatsschrift für Mathematik und Phisik 1-6. (in German).
  13. Khvorinov, N.I. (1958). Crystallization and heterogeneity of steel. Moscow: translation from Czech. Mashgiz, 392 p.
  14. Khvorinov, N.I. (1955). Hardening of castings. Moscow: translation from him and Czech. Foreign literature.
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  16. Nazaratin, V.V., Vasilevsky, P.F., Kvyatkovsky, A.F., Beltsov, P.F. (1972). Kinetics of the formation process of steel castings under various cooling conditions. Collection of works: Casting properties of alloys. Kyiv: IPL AN Ukrainian SSR.
  17. Khrychikov, V.E., & Menyailo E.V. (2011). Temperature patterns and pouring limits of high-strength cast iron during solidification in the combined chill-sandy mold box. Metallurgical and Mining Industry. 3(2), 39-43.
  18. Khrychikov, V.E. (1993). Thermophysical processes of directional solidification of cast iron rolling rolls. Unpublished doctoral dissertation. Institute of Foundry Problems NAS Ukraine. Kyiv. Ukraine.
  19. Semenov, O.D., Khrichikov, V.E., Kutsova, V.Z., & Menyailo, O.V. (2021). Development of the kinetics of sliding to the front of the solid isosolidus of zinc-carbon alloys in small cylindrical forms. Processy littya. 144(2), 23-30. https://doi.org/10.15407/plit2021.02.023.
  20. Nehendzi, A. (1967). Casting properties of alloys. In Proceedings of XI Conference on the theory of foundry processes: Casting properties of metals and alloys. (pp. 25-38). Moscow: Nauka.
  21. Semenov, O.D., Khrichikov, V.E., Menyailo, O.V., Aftandilyants, E.G. & Gnyloskurenko, S.V. (2022). Pour instead of carbon onto the solid surface of the solid front of isoliquidus Fe-C alloys in small cylindrical forms. Theory and practice of metallurgy. 3, pp. 57-62.
  22. Reisa, A., Xub, Z., Tolb, R.V. & Netoc, R. (2012). Modeling feeding shows related shrinkage defects in aluminum castings. Journal of Manufacturing Processes. 14(1), 1-7. https://doi.org/10.1016/j.jmapro.2011.05.003.
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Date

30.12.2024

Type

Article

Identifier

DOI: 10.24425/afe.2024.153373
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