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Volume 23 Issue 5
May  2016
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Yu Xu, Rong-jun Xu, Zheng-jie Fan, Cheng-bin Li, An-yuan Deng,  and En-gang Wang, Analysis of cracking phenomena in continuous casting of 1Cr13 stainless steel billets with final electromagnetic stirring, Int. J. Miner. Metall. Mater., 23(2016), No. 5, pp. 534-541. https://doi.org/10.1007/s12613-016-1264-6
Cite this article as:
Yu Xu, Rong-jun Xu, Zheng-jie Fan, Cheng-bin Li, An-yuan Deng,  and En-gang Wang, Analysis of cracking phenomena in continuous casting of 1Cr13 stainless steel billets with final electromagnetic stirring, Int. J. Miner. Metall. Mater., 23(2016), No. 5, pp. 534-541. https://doi.org/10.1007/s12613-016-1264-6
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Analysis of cracking phenomena in continuous casting of 1Cr13 stainless steel billets with final electromagnetic stirring

  • 通讯作者:

    En-gang Wang    E-mail: egwang@mail.neu.edu.cn

  • Solidification cracking that occurs during continuous casting of 1Cr13 stainless steel was investigated with and without final electromagnetic stirring (F-EMS). The results show that cracks initiates and propagates along the grain boundaries where the elements of carbon and sulfur are enriched. The final stirrer should be appropriately placed at a location that is 7.5 m away from the meniscus, and the appropriate thickness of the liquid core in the stirring zone is 50 mm. As a stirring current of 250 A is imposed, it can promote columnar-equiaxed transition, decrease the secondary dendrite arm spacing, and reduce the segregation of both carbon and sulfur. F-EMS can effectively decrease the amount of cracks in 1Cr13 stainless steel.
  • Analysis of cracking phenomena in continuous casting of 1Cr13 stainless steel billets with final electromagnetic stirring

    + Author Affiliations
    • Solidification cracking that occurs during continuous casting of 1Cr13 stainless steel was investigated with and without final electromagnetic stirring (F-EMS). The results show that cracks initiates and propagates along the grain boundaries where the elements of carbon and sulfur are enriched. The final stirrer should be appropriately placed at a location that is 7.5 m away from the meniscus, and the appropriate thickness of the liquid core in the stirring zone is 50 mm. As a stirring current of 250 A is imposed, it can promote columnar-equiaxed transition, decrease the secondary dendrite arm spacing, and reduce the segregation of both carbon and sulfur. F-EMS can effectively decrease the amount of cracks in 1Cr13 stainless steel.
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