2Seah M P, Hordros E D, Grain Boundary Segregation [M]. London :Proc. Roy. Soc.,1973. 191-212.
3Habraken Lecomte-Beckers J. Hot Shortness and Scaling of Copper-containing steels [A]. Copper in Iron and steel [C]. New York: John Wiley, 1982. 45-81.
4Lmai N,Komatsubara N,Kunishige K. Effect of Cu and Ni on hot workability of hot-rolled mild steel [J]. ISIJ International, 1997,37(3) : 224-231.
5[2]Iwase M.Ohshita H.Further studies of the removal of copper from solid ferrous scrap[J].Steel Research,1994,65(9):362-367.
6[3]Matsuo T.Acceleration of copper and tin removal from molten steel by decarburization under reduced pressure[J].Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan,2000,86(11):741-747.
7[4]Nagasaka T,Hino M,Barryas.Fundamental studies on the removal copper,tin and zinc from remelted steel scrap[A].Steelmaking Conference Proceeding[C].Pittsburgh:The Iron and Steel Society of AI ME,1996.589-597.
8[5]Savov L,Janke D.Evaporation of Cu and Sn from induction-stirred iron-based melts treated at reduced pressure[J].ISIJ International,2000,40(2):95-104.
9[6]Matsuo T.Removal copper and tin with plasma[J].ISIJ International,1988,28(4):319-324.
10[7]Iwase M,et al.Separation of Copper from solid Ferrous Scrap by Using Molten Aluminum.I&SM,1983,(7):61.
