LI Yang-zhou, ZHANG Da-de, XUE Nian-fu, WANG Ming-dong, ZHANG Xiao-ling, LI Zhong-chao, DU Li-hua. RH-MFB VACUUM TREATMENT OF MOLTEN STEEL[J]. IRON STEEL VANADIUM TITANIUM, 2001, 22(3): 42-45,63.
Citation:
LI Yang-zhou, ZHANG Da-de, XUE Nian-fu, WANG Ming-dong, ZHANG Xiao-ling, LI Zhong-chao, DU Li-hua. RH-MFB VACUUM TREATMENT OF MOLTEN STEEL[J]. IRON STEEL VANADIUM TITANIUM, 2001, 22(3): 42-45,63.
LI Yang-zhou, ZHANG Da-de, XUE Nian-fu, WANG Ming-dong, ZHANG Xiao-ling, LI Zhong-chao, DU Li-hua. RH-MFB VACUUM TREATMENT OF MOLTEN STEEL[J]. IRON STEEL VANADIUM TITANIUM, 2001, 22(3): 42-45,63.
Citation:
LI Yang-zhou, ZHANG Da-de, XUE Nian-fu, WANG Ming-dong, ZHANG Xiao-ling, LI Zhong-chao, DU Li-hua. RH-MFB VACUUM TREATMENT OF MOLTEN STEEL[J]. IRON STEEL VANADIUM TITANIUM, 2001, 22(3): 42-45,63.
The light treatment of LCAK and axle steels,the treatment of IF steel with vacuum decarbonization and vacuum oxygen decarbonization,and the deep vacuum treatment of rail steel and MFB heating molten steel and vessel were carried out in RH-MFB at PZH Steel.the effect of the model of decreasing pressure in the vessel and MFB oxygen blowing was analyzed on the carbonization rate.The influence of the vacuity in the vessel was discussed on the final carbon content in the molten steel.
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