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Materials and Manufacturing Processes Volume 23, 2008 - Issue 4
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Original Articles

Scale-Model Experiment and Numerical Simulation of a Steel Teeming Process

K. Kuwana School of Engineering, The University of Tokyo, Tokyo, JapanCorrespondence[email protected]
,
M. I. Hassan Department of Mechanical Engineering, University of Kentucky, Lexington, Kentucky, USA
,
P. K. Singh Department of Mechanical Engineering, University of Kentucky, Lexington, Kentucky, USA
,
K. Saito Department of Mechanical Engineering, University of Kentucky, Lexington, Kentucky, USA
&
J. Nakagawa Nippon Steel Corporation, Chiba, Japan
Pages 407-412 | Received 06 Aug 2007, Accepted 26 Sep 2007, Published online: 07 Apr 2008

Citations (15)

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Zhonghui Li, Meijie Zhang, Fengming Zhou, Yongming Lu, Xiaohong Zhang & Huazhi Gu. (2022) Numerical simulation of slag entrapment process during the end of casting in tundish. Ironmaking & Steelmaking 49:10, pages 1039-1047.
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Articles from other publishers (14)

Shuai Ma, Ming He, Li-Jia Zhao, Xiao-Wei Zhu, Yi Yuan & Qiang Wang. (2022) Suppressing Vortex by Static Electromagnetic Field at the Last Stage of Ladle Steel Teeming Process. International Journal of Metalcasting 17:3, pages 2226-2238.
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Yanbin Yin, Jianhong Yang, Jiongming Zhang & Lei Tang. (2023) Physical modeling of slag carryover in the last stage of ladle teeming during continuous casting with dynamic change of slide gate opening. Journal of Materials Research and Technology 23, pages 1781-1791.
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Ming He, Shuai Ma, Lijia Zhao, Xiaowei Zhu, Zhouhua Jiang & Qiang Wang. (2022) Optimizing Design of Vortex Suppression Utilizing Static Electromagnetic Field during Steel Teeming from Ladle. steel research international 94:1.
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Antariksh Gupta, Rakesh Kumar & Rajeev Kumar Singh. (2021) Assessment of Critical Vortexing Height to Prevent Slag Entrapment During Tundish Teeming. Metals and Materials International 28:5, pages 1246-1256.
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Yanqiu Huang, Junhao Rong, Junwei Guo, Wenyang Wang, Yi Wang, Ke Lu, Shengnan Guo & Lei Cao. (2021) Experimental study of induced airflow characteristics during liquid metal pouring process through PIV, thermography, and color schlieren imaging. International Journal of Thermal Sciences 170, pages 107144.
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Alberto N. ConejoAlberto N. Conejo. 2021. Fundamentals of Dimensional Analysis. Fundamentals of Dimensional Analysis 139 321 .
Ashok Kamaraj, G. K. Mandal & G. G. Roy. (2018) Control of Slag Carryover from the BOF Vessel During Tapping: BOF Cold Model Studies. Metallurgical and Materials Transactions B 50:1, pages 438-458.
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Henrique Silva Furtado, Johne Jesus Mol Peixoto, Weslei Viana Gabriel, Carlos Antônio da Silva, Itavahn Alves da Silva & Ciro Azevedo Silva. (2018) ARRASTE DE ESCÓRIA DURANTE A DRENAGEM DE AÇO. ARRASTE DE ESCÓRIA DURANTE A DRENAGEM DE AÇO.
Hong-Xia Li, Qiang Wang, Jia-Wei Jiang, Hong Lei, Zhan-Cheng Guo & Ji-Cheng He. (2016) Analysis of Factors Affecting Free Surface Vortex Formation during Steel Teeming. ISIJ International 56:1, pages 94-102.
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Seung-Jin Lee, Sang-Joon Kim & Hae-Geon Lee. (2016) New idea of suppressing free surface vortex during tapping liquid steel from converter. Metals and Materials International 22:1, pages 136-142.
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Hong-Xia Li, Qiang Wang, Hong Lei, Jia-Wei Jiang, Zhan-Cheng Guo & Ji-Cheng He. (2014) Mechanism Analysis of Free-Surface Vortex Formation during Steel Teeming. ISIJ International 54:7, pages 1592-1600.
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Seung‐Jin Lee, Sang‐Joon Kim & Hae‐Geon Lee. 2013. PRICM. PRICM 3009 3016 .
Peiyuan Ni, Lage T.I. Jonsson & Pär G. Jönsson. (2013) Simulations of the Ladle Teeming Process and Verification With Pilot Experiment. steel research international 84:3, pages 276-287.
Crossref
Seung-Jin Lee, Sang-Joon Kim & Hae-Geon Lee. 2016. Proceedings of the 8th Pacific Rim International Congress on Advanced Materials and Processing. Proceedings of the 8th Pacific Rim International Congress on Advanced Materials and Processing 3009 3016 .

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