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INTENSIVELY COOLED INGOT DURING CASTING AND SOLIDIFICATION AND ITS INTERNAL HOMOGENEITY PREDICTING BY USING NUMERICAL SIMULATION IN MAGMA 5 SOFTWARE

1 PINDOR Jaroslav
Co-authors:
1 KURKA Vladislav 2 PYSZKO René 3 SOCHA Ladislav 1 KOSŇOVSKÁ Jana
Institutions:
1 MATERIÁLOVÝ A METALURGICKÝ VÝZKUM s.r.o., Ostrava, Czech Republic, EU, jaroslav.pindor@mmvyzkum.cz
2 Vysoká škola báňská - VŠB – Technická univerzita Ostrava, Czech Republic, EU, rene.pyszko@vsb.cz
3 Vysoká škola technická a ekonomická v Českých Budějovicích, České Budějovice, EU, socha@mail.vstecb.cz
Conference:
27th International Conference on Metallurgy and Materials, Hotel Voronez I, Brno, Czech Republic, EU, May 23rd - 25th 2018
Proceedings:
Proceedings 27th International Conference on Metallurgy and Materials
Pages:
81-86
ISBN:
978-80-87294-84-0
ISSN:
2694-9296
Published:
24th October 2018
Proceedings of the conference were published in Web of Science and Scopus.
Metrics:
556 views / 564 downloads
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Abstract

This paper presents intensively cooled ingot during casting and solidification and comparison of obtained results with numerical simulation in Magma 5 software. The technology of intensive cooled ingot has been developed and physically verified in MATERIAL AND METALLURGICAL RESEARCH Ltd. The results of the numerical casting simulation of the cast ingot were obtained in the Magma 5 software, which includes a new module, including the heat transfer through the flowing medium. The 1.3520Mo steel melt was cast in both cases into a V2A ingot mould set, the forging ingot weighing 1,690 kg. Intense heat removal was provided by a cooler placed on a casting plate, which became an integral part of the ingot after melt casting.

Keywords: Cooling, steel, water, simulation, structure

© This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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