金属学报  2008, Vol. 44 Issue (7): 883-886

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中频磁场下两段式无缝结晶器的透磁效果

王强;金百刚;高翱

东北大学材料电磁过程教育部重点实验室

PENETRATION OF MAGNETIC FIELD IN TWO-STAGE SLITLESS MOLD FOR SOFT-CONTACT ELECTROMAGNETIC CONTINUOUS CASTING

Bai-Gang JIN

东北大学材料电磁过程教育部重点实验室

王强; 金百刚; 高翱 . 中频磁场下两段式无缝结晶器的透磁效果[J]. 金属学报, 2008, 44(7): 883-886 .
, , . PENETRATION OF MAGNETIC FIELD IN TWO-STAGE SLITLESS MOLD FOR SOFT-CONTACT ELECTROMAGNETIC CONTINUOUS CASTING[J]. Acta Metall Sin, 2008, 44(7): 883-886 .

摘要 参考文献 相关文章 Metrics 全文: PDF(1129 KB)   摘要: 为了验证两段式软接触电磁连铸结晶器的透磁效果, 测试了两段式结晶器内部的磁感应强度及弯月面高度, 并与传统结晶器进行比较, 结果表明：(1) 两段式结晶器的透磁效果随结晶器壁厚的减小而增强, 当结晶器的壁厚 为5 mm时, 两段式结晶器内部的磁感应强度比传统结晶器增大71.3%；(2) 两段式结晶器内部的磁感应强度随电 源功率和线圈位置的提高而增强；(3) 随电源功率的增加, 两段式结晶器内金属液的弯月面高度随之增大, 电源功 率为10、20和30 kW时对应的弯月面高度分别为2.9、4.7和8.2 mm. 关键词 ： 软接触电磁连铸,  两段式无缝结晶器,  透磁效果     Abstract：In order to know the penetration of magnetic field in two-stage slitless mold for soft-contact electromagnetic continuous casting, the magnetic flux density and the height of meniscus in two-stage mold and conventional mold were compared through experimental measurement. The results show that (1) the stainless steel cover can prevent the magnetic lines of flux going into mold from the top of mold. It is beneficial to the measurement of magnetic penetration with a cover on the mold. (2) The magnetic flux density increases with the thickness of mold decreasing when frequency is 25000 Hz. The magnetic flux density in two-stage mold is less than that in conventional mold when d=10 mm, but the magnetic flux density in two-stage mold is more than that in conventional mold when d=7 mm, and the penetration of magnetic field in two-stage mold is 4.5 times than that in conventional mold when d=5 mm. (3) The penetration of magnetic field and meniscus in two-stage slitless mold becomes high enough by changing the structural and electromagnetic parameters. Key words： soft-contact electromagnetic continuous casting    two-stage slitless mold    penetration of magnetic fiel 收稿日期: 2007-09-29      ZTFLH:  TF777   服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 王强 金百刚 高翱 44.8K 链接本文: https://www.ams.org.cn/CN/      或      https://www.ams.org.cn/CN/Y2008/V44/I7/883 [1]Vires C.Metall Trans,1989;20B:623 [2]Tingju L,Kensuke S,Shigeo A.ISIJ Int,1996;36:401 [3]Zhou Y M,Sassa K,Asai S.Acta Metall Sin,2001;37: 772 (周月明，佐佐健介，浅井滋生．金属学报，2001；37：772) [4]Lei Z S,Ren Z M,Yah Y G,Deng K.Acta Metall Sin, 2004;40:995 (雷作胜，任忠鸣，闫勇刚，邓康．金属学报，2004；40：995) [5]Park J,Kim H,Jeong H,Kim G,Cho M.ISIJ Int,2003; 43:813 [6]Fuchigami Y,Suenaga R,Takeuchi E.Jpn Pat, JP3099753,1991.4 [7]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) [8]Jin B G,Wang Q,Deng A Y,Zhang L T,Wang E G,He J C.Foundry,2005;54:556 (金百刚，王强，邓安元，张林涛，王恩刚，赫冀成．铸造，2005；54：556) [9]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) [10]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) [11]Suzuki T,Mori H.Electr Furn Steel,1999;70:133 (铃木寿穗，森店司．电气制钢，1999；70：133) [12]Yu G W,Jia G L,Wang E G,Li B W,He J C.Acta Metall Sin,2000;36:1253 (于光伟，贾光霖，王恩刚，李本文，赫冀成．金属学报，2000；36：1253) [1] 王强; 金百刚; 崔大伟; 刘岩; 赫冀成 . 无缝软接触电磁连铸结晶器的冷却效果分析[J]. 金属学报, 2008, 44(1): 112-118 . [2] 金百刚; 王强; 刘岩; 崔大伟; 赫冀成 . 两段式无缝软接触电磁连铸结晶器内的电磁场分布[J]. 金属学报, 2007, 43(9): 999-1003 . [3] 金百刚; 王强; 崔大伟; 刘燕; 赫冀成 . 两段式无缝软接触结晶器电磁参数和结构参数的研究[J]. 金属学报, 2007, 43(4): 427-432 . [4] 那贤昭; 张兴中; 仇圣桃; 干勇 . 方坯软接触电磁连铸结晶器内三维电磁场的数值模拟[J]. 金属学报, 2002, 38(9): 947-951 . [5] 那贤昭; 张兴中 . 软接触电磁连铸技术分析[J]. 金属学报, 2002, 38(1): 105-108 . Viewed Full text Abstract Cited   Shared      Discussed