利用数值模拟研究了软接触电磁连铸中两段式无缝结晶器的传热及初生坯壳的厚度.结果表明;相同工艺条件下,两段式结晶器与传统结晶器相比,出口坯壳厚度减薄约0.4 mm.铸坯表面温度升高约2.5 K,初始凝固点下降约9 mm,有利于提高铸坯的表面质量.两段式结晶器上半段长度增加使凝固坯壳厚度略有降低,但将导致钢液对连接处的冲刷增大.在本研究条件下,考虑到安全生产的需要,结晶器上半段长度为120 mm是较佳的长度.两段式结晶器壁的传热计算表明,本研究条件下,结晶器的耐热强度满足安全生产的要求.
参考文献
| [1] | Tingju L,Kensuke S,Shigeo A.ISIJ Int,1996; 36:401 |
| [2] | Toh T,Takeuchi E,Hojo M,Kawai H,Matsumura S.ISIJ Int,1997; 37:1112 |
| [3] | Cha P R,Hwang Y S,Nam H S,Chung S H,Yoon J K.ISIJ Int,1998; 38:403 |
| [4] | Zou Y M,Sassa K,Asai S.Acta Metall Sin,2001; 37:771(周月明,佐佐健介,浅井滋生.金属学报,2001;37:771) |
| [5] | Fuchigami Y,Suenaga R,Takeuchi E.Jpn Pat,JP 3099753,1991 |
| [6] | Wang Q,He J C,Wang E G.Chin Pat,02132867.6,2002(王强,赫冀成,王恩刚.中国专利,02132867.6,2002) |
| [7] | Jin B G,Wang Q,Cui D W,Liu Y,He J C.Acta Metall Sin,2007; 43:427(金百刚,王强,崔大伟,刘燕,赫冀成.金属学报,2007;43:427) |
| [8] | Jin B G,Wang Q,Liu Y,Cui D W,He J C.Acta Metall Sin,2007; 43:999(金百刚,王强,刘岩,崔大伟,赫冀成.金属学报,2007;43:999) |
| [9] | Bennon W D,Incropera F P.Int J Heat Mass Transfer,1987; 30:2161 |
| [10] | Jones W P,Launder B E.Int J Heat Mass Transfer,1973;16:1119 |
| [11] | Chen J X.Manual of Continuous Casting.Beijing:Met-allurgical Industry Press,1995:166(陈家祥.连续铸钢手册.北京:冶金工业出版社,1995:166) |
| [12] | Lai K Y M,Salcudean M,Tanaka S,Gnthrie R L L.Metall Trans,1986; 17B:449 |
| [13] | Zhang H W,Wang E G,He J C.Acta MetaU Sin,2002;38:99(张红伟,王恩刚,赫冀成.金属学报,2002;38:99) |
| [14] | Lait J E,Brimacombe J K,Weinberg F.Ironmaking Steel-making,1974; 2:90 |
| [15] | Shi C X.Practical Casting Metallurgical Technology.Bei-jing:Metallurgical Industry Press,1998:43(史宸兴.实用连铸冶金技术.北京:冶金工业出版社,1998:43) |
| [16] | Yi H B,Yao M.Acta Metall Sin,2005; 41:638(尹合璧,姚曼.金属学报,2005; 41:638) |
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