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NTIS 바로가기Materials & design, v.14 no.1, 1993년, pp.19 - 27
Blackburn, M.J. , Malley, D.R.
Plasma arc melting (pam) using a horizontal hearth is emerging as a method for obtaining significant improvements in the quality of titanium alloys. This paper describes the configuration of pam furnaces with emphasis on controls that can yield a uniform and reproducible product. The paper also disc...
Pfender Vol 30 1984 Plasma generation
Szeleky Vol 30 1984 An overview of plasma processing
Schlienger 1989 Electron Beam Melting and Refining State-of-the-Art Control considerations in cold hearth withdrawal
Yamada 1086 1989 Proceedings of the Seventh International Conference on Vacuum Metallurgy Development of plasma arc melting of titanium
Fujiwara, T. Primary melting of titanium with plasma arc. Proceedings of the Fourth International Conference on Titanium, Kyoto, pp. 2135-2144
Dresty 1984 Proceedings of the Fifth International Titanium Conference Process for removal of high density inclusions from titanium turnings for rotor/premium quality ingot
Shamblen 50 1989 Electron Beam Melting and Refining State-of-the-Art Titanium base alloys clean melt process development
Bertram 333 1980 Modeling of Casting and Welding Processes Interaction between computational model and experiments for vacuum arc remelting
Mitchell 589 1978 Proceedings of the Sixth International Vacuum Metallurgy Conference Factors influencing solidification and ingot temperatures
Jarrett 593 1988 Proceedings of the Sixth International Conference on Titanium Defect removal in hearth melting Ti?6Al?4V
European Patent No. EP 0196516B1
Entrekin 40 1985 Electron Beam Melting and Refining State-of-the-Art Removal of HDI's by hearth melting
Poulsen 347 1986 Electron Beam Melting and Refining, State-of-the-Art Development of seeds for reproducible LDI's in titanium melting tests
Malley 224 1990 Electron Beam Melting and Refining State-of-the-Art Standardizing defects for titanium seeding experiments
Tripp, D. and Mitchell, Segregation and hot topping of titanium alloy ingots. Proceedings of the 1989 Vacuum Metallurgy Conference (Eds L. Lherbier and J. Cordy), American Vacuum Society
Adams, R. and Rosenberg, H. A review of titanium ingot solidification. In Titanium and Titanium Alloys, Vol 1 (Eds J. Williams and A. Belov), Plenum Press, American Vacuum Society, pp. 127-139
Malley, D. and Bania, P., unpublished work
Bomberger 67 1975 Proceedings of the Vacuum Metallurgy Conference Alpha segregation in titanium alloys
Malley 1990 Proceedings of the Tenth International Vacuum Metallurgy Conference Control of plasma hearth melted ingot surfaces
Schlienger, M. Computer control of plasma torches in plasma melting. Proceedings of the 1989 Vacuum Metallurgy Conference (Eds L. Lherbier and J. Cordy), American Vacuum Metallurgy Conference, pp. 27-30
Kelkar, K. Modelling of phase change phenomena in boundary fitted coordinates. Intelligent Processing of Materials
Balliett, R. et al. A new plasma arc furnace with helium recycle. Proceedings of the 1991 Vacuum Metallurgy Conference, American Vacuum Society, to be published.
Haun, R. and Lampson, R. The effect of chamber pressure on melt rate in plasma arc melting. Proceedings of the 1991 Vacuum Metallurgy Conference, American Vacuum Society, to be published
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