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2013 №11 (11) 2013 №11 (13)

Автоматическая сварка 2013 #11
«Автоматическая сварка», 2013, № 10-11, с. 83-89

NUMERICAL SIMULATION AND EXPERIMENTAL INVESTIGATION OF REMELTING PROCESSES

Authors
A. JARDY
Institut Jean Lamour (UMR CNRS Е Universite de Lorraine 7198). Laboratoire d'Excellence DAMAS. Parc de Saurupt, CS 50840, F-54011 Nancy Cedex, France. E-mail: alain.jardy@univ-lorraine.fr


Abstract
The numerical simulation of remelting processes enables us to link the local solidification conditions to the operating parameters. Here, we discuss some recent studies aiming to develop specific aspects, e.g. the alternating current distribution during ESR of steels and superalloys, the ensemble arc motion in a VAR furnace and the influence of electromagnetic stirring on the macrosegregation in remelted ingots. 27 Ref., 1 Table, 5 Figures.


Keywords: vacuum arc remelting, numerical simulation, electromagnetic stirring, current distribution, macrosegregation


Received:                09.04.13
Published:               06.11.13


References
1. Choudhury, A. (1990) Vacuum Metallurgy. A.S.M. Int.
2. Hoyle, G. (1983) Electroslag Processes Е principles and practice. Applied Science Publishers Ltd.
3. Jardy, A., Hans, S., Ablitzer, D. (1995) In: Proc. MCWASP-VII, TMS,1995, 205.
4. Quatravaux, T. et al. (2004) J. of Materials Sci., 39(39), 7183.
5. Jardy, A., Hans, S. (2006) In: Proc. MCWASP-XI, TMS, 2006, 953.
6. Weber, W. et al. (2009) Metall. Transact. B, 40B, 271.
7. Jardy, A., Ablitzer, D. (2008) The Paton Welding J., 11, 153.
8. Kelkar, K.M., Patankar, S.V., Mitchell, A. (2005) In: Proc. LMPC, 2005, ASM Int., 137.
9. Kharicha, A. et al. (2009) In: Proc. LMPC, 2009, TMS, 235.
10. Patel, A.D. (2011) In: Proc. LMPC, 2011, SF2M, 49.
11. Krane, M.J.M. et al. (2011) In: Proc. LMPC, 2011, SF2M, 65.
12. Kharicha, A. et al. (2012) CFD modeling and simulation of materials processing, Wiley/TMS, 139.
13. Li, B., Wang, F., Tsukihashi, F. (2012) ISIJ Int., 52, 1289.
14. Jardy, A., Ablitzer, D., Wadier, J.F. (1991) Metall. Transact. B, 22B, 111.
15. Hernandez-Morales, B., Mitchell, A. (1999) Ironmaking and Steelmaking, 26, 423.
16. Mitchell, A. (2005) Materials Sci. and Engineering A, 413/414, 10.
17. Kharicha, A. et al. (2007) In: Proc. LMPC, 2007, SF2M, 113.
18. Dilawari, A.H., Szekely, J. (1977) Metall. Transact. B, 8B, 227.
19. Zanner, F.J. (1979) Ibid., 10B, 133.
20. Chapelle, P. et al. (2000) High Temperature Materials Processing, 4, 493.
21. Ward, R.M., Jacobs, M.H. (2004) J. of Materials Sci., 39, 7135.
22. Ward, R.M., Daniel, B., Siddall, R.J. (2005) In: Proc. LMPC, 2005, ASM Int., 49.
23. Yuan, L. et al. (2009) Int. J. of Modern Physics B, 23B, 1584.
24. Jardy, A., Ablitzer, D. (2006) Rare Met. Mat. Eng., 35, 119.
25. Venkatesh, V. et al. (2009) J. Miner. Met. Mater. Soc., 61, 45.
26. Wang, C.Y., Beckermann, C. (1996) Metall. Transact. A, 27A, 2754.
27. Zaloznik, M., Combeau, H. (2010) Comput. Mater. Sci., 48, 1.
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