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The aim of paper was determination of influence of the casting velocity in horizontal continuous casting process on solidification phenomenon and next primary structure of aluminum ingots. In the range of studies was conducted the experiment concerning continuous casting of Al ingots with diameter 30 mm at velocity from 30 to 80 mm/min. Moreover was developed adequate to the real the virtual model of cooled water continuous casting mould, which was used in simulation of solidification process of Al continuous ingot, made in ANSYS Fluent software. In result was determined the influence of casting velocity and temperature of cooling water on position of crystallization front inside the continuous casting mould. While the shape and size of grains in primary structure of Al continuous ingots were determined on the basis of metallographic macroscopic studies. On the basis of the results analysis was affirmed that increase of casting velocity strongly influences on position of crystallization front and causes increase of temperature of ingot leaving the continuous casting mould. In result the increase of casting velocity supposedly leads to decrease of temperature gradient on crystallization front what creates coarse grains in primary structure of aluminum continuous ingots and caused low usable properties i.e. suitability to plastic deformation.
Wydawca
Czasopismo
Rocznik
Tom
Strony
1609--1613
Opis fizyczny
Bibliogr. 13 poz., rys.
Twórcy
autor
- Silesian University of Technology, Department of Foundry Engineering,7 Towarowa Str., 44-100 Gliwice, Poland
autor
- Silesian University of Technology, Department of Foundry Engineering,7 Towarowa Str., 44-100 Gliwice, Poland
autor
- Silesian University of Technology, Department of Foundry Engineering,7 Towarowa Str., 44-100 Gliwice, Poland
autor
- Silesian University of Technology, Institute of Thermal Technology, 22 Konarskiego Str., 44-100 Gliwice, Poland
autor
- Silesian University of Technology, Institute of Fundamentals of Machinery Design,18a Konarskiego Str., 44-100 Gliwice, Poland
autor
- Silesian University of Technology, Department of Foundry Engineering,7 Towarowa Str., 44-100 Gliwice, Poland
Bibliografia
- [1] K. Miyazawa, Science and Technology of Advanced Materials 2 (1), 59-65 (2001).
- [2] S. Zhou, H. Li, J. Rao, Z. Ren, J. Hang, Z. Yang Z, China Foundry 4 (3), 198-201 (2007).
- [3] J. Szajnar, M. Stawarz, T. Wróbel, W. Sebzda, B. Grzesik, M. Stępień, Archives of Materials Science and Engineering 42 (1), 45-52 (2010).
- [4] J. Szajnar, M. Stawarz, T. Wróbel, W. Sebzda, Archives of Foundry Engineering 10 (3), 171-174 (2010).
- [5] D. Lee, S. Kang, D. Cho, K. Kim, Rare Metals 25, 118-123 (2006).
- [6] Z. Beijiang, C. Jianzhong, L. Guimin, Materials Science & Engineering A A355, 325-330 (2003).
- [7] Y. Li, X. Zhang, F. Jia, S. Yao, J. Jin, Transactions of Nonferrous Metals Society of China 13 (2), 365-368 (2003).
- [8] T. Wróbel, J. Szajnar, in: Proceedings of 22nd International Conference on Metallurgy and Materials METAL 2013, May 15-17.2013, Brno, Czech Republic, 1177-1182.
- [9] Z. Yan, W. Jin, T. Li, Journal of Materials Engineering and Performance 21 (9), 1970-1977 (2012).
- [10] X. Li, Z. Guo, X. Zhao, B. Wei, F. Chen, T. Li, Materials Science & Engineering A 460-461, 648-651 (2007).
- [11] T. Wróbel, J. Szajnar, D. Bartocha, M. Stawarz, Archives of Foundry Engineering 13 (3), 113-118 (2013).
- [12] J. Szajnar, T. Wróbel, International Journal of Materials and Product Technology 33 (3), 322-334 (2008).
- [13] T. Wróbel, Proceedings of 21st International Conference on Metallurgy and Materials METAL 2012, May 23-25.2012, Brno, Czech Republic, 1114-1120.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-eee63792-dd2b-45db-a761-c0ce15c93f8a