Details

Title

The Process of Vacuum Formation in the Shrinkage Cavity at Castings Crystallization

Journal title

Archives of Foundry Engineering

Yearbook

2022

Volume

vol. 22

Issue

No 4

Authors

Affiliation

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

Keywords

Shrinkage depression ; Causes of defects ; Shrinkage cavity ; Device for measuring vacuum

Divisions of PAS

Nauki Techniczne

Coverage

79-84

Publisher

The Katowice Branch of the Polish Academy of Sciences

Bibliography

[1] DSTU 9051:2020. Castings of cast iron and steel. Defects. Terms and definitions. Since 01.04.2021. Pg. 15. (in Ukrainian) http://ptima.kiev.ua/images/stories/Standart/IRONSTEEL/dstu19200-80.pdf
[2] Rowley, M.T. (2007). International Atlas of Casting Defects. American Foundry Society. ISBN: 978-0874330533.
[3] GOST 19200-80. Castings of cast iron and steel. Terms and definitions of defects. (1980). (in Russian).
[4] Atlas of foundry defects. (2004). 136 Summit avenue. Montvale, NJ 07645-1720. Institute of Foundry Casting. Technopark. Pg. 23.
[5] Reisa, A., Xub, Z., Tolb, R.V. & Netoc, R. (2012). Modelling feeding flow related shrinkage defects in aluminum castings. Journal of Manufacturing Processes. 14(1), 1-7. DOI: 10.1016/j.jmapro.2011.05.003
[6] Voronin, Y.F., Kamaev V.A. (2005). Atlas of foundry defects. Moscow: Mechanical Engineering. Pg. 327. (in Russian). https://www.twirpx.com/file/914318/
[7] Chokkalingam, B. & Mohamed Nazirudeen, S.S. (2009). Analysis of casting defect through defect diagnostic study approach. Journal of Engineering Annals of the Faculty of Engineering Hunedoara. 2, 209-212. ISSN 1584-2665
[8] Beeley, P. (2001). Foundry Technology. 719. Oxford: Butterworth Heinemann. ISBN 0750645679. https://www.academia.edu/4161769/foundry_technology_by_peter_beeley/
[9] Khrychikov, V.E., Semenov, O.D., Menyaylo, O.V., Shalevskaya, I.A., & Myanovskaya, Ya.V. (2021). Elimination of weights in artistic castings with different wall thickness (Removal of shrinkage depression in art castings with different wall thickness). Casting processes (Затвердіння сплавів). 4(146). 14-21. (in Ukrainian). https://plit-periodical.com.ua/en/arhiv/removal-shrinkage-depression-art-castings-different-wall-thickness
[10] GOST R ISO 9626-2020. (2021). Stainless steel needle pipes for the manufacture of medical devices. Requirements and test methods. Pg. 28. (in Russian).
[11] Dunphy, R.P., Akerlind, C.G. & Pellini, W.S. (1954). Solidification, feed characteristics of gray cast irons and nodular cast irons. Foundry. 82(6), 106-121.
[12] Rogelberg I.L, Beilin V.M. (1983). Alloys for thermocouples (handbook). Moscow: Metallurgy. 76-77. (in Russian) https://knizhen-pazar.net/products/books/597200-splav-dlya-termopar
[13] Leibenzon, V.O., Pilyushenko, V.L., Kondratenko, V.M., Khrychikov, V.E., Nedopyokin, F.V., Bilousov, V.V. Dmitriev, Yu.V. (2009). Hardening of metals and metal compositions. Kyiv: Scientific thought. 447. (in Ukrainian. https://nmetau.edu.ua/file/tverdinnya_metaliv_i_metalevih_kompozitsiy._pidruchnik.pdf
[14] Khrychikov, V.E., Semenov, O.D., Menyaylo, O.V. (2021). Application for the patent № a202101129. Ukraine. IPC (2021.01) B22D 27/13 (2006.01), B22D 25/00. Method of removing weights in castings with thickened parts of wall. (in Ukrainian). https://base.uipv.org/searchInvStat/showclaimdetails.php?IdClaim=336807&resId=1

Date

2022.12.16

Type

Article

Identifier

DOI: 10.24425/afe.2022.143953
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