Simulation factors of steel continuous casting 被引量：1

Simulation factors of steel continuous casting

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摘要 The factors involved in simulating the continuous casting process of steel and the effects of the factors on the thermal behavior were investigated. The numerical methods and the influence of some assumptions were also analyzed, such as nodes used to discretize the steel in array size and computing time to obtain good approaches. The results show that some of these factors are related with the design of the continuous casting plant （CCP）, such as geometrical configuration, and the operating conditions, such as water flow rate, heat removal coefficient in the mold, casting times, and casting speed in the strand, which affect the heat removal conditions over the temperature and solidification profiles. The factors involved in simulating the continuous casting process of steel and the effects of the factors on the thermal behavior were investigated. The numerical methods and the influence of some assumptions were also analyzed, such as nodes used to discretize the steel in array size and computing time to obtain good approaches. The results show that some of these factors are related with the design of the continuous casting plant （CCP）, such as geometrical configuration, and the operating conditions, such as water flow rate, heat removal coefficient in the mold, casting times, and casting speed in the strand, which affect the heat removal conditions over the temperature and solidification profiles.

作者 A.Ramírez-López R.Aguilar-López A.Kunold-Bello J.González-Trejo M.Palomar-Pardavé

机构地区 Department of Materiales Institute Polytechnic National Institute Technologic Autonomous of Mexico

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2010年第3期267-275,共9页 矿物冶金与材料学报（英文版）

关键词 continuous casting thermal behavior numerical method computer simulation continuous casting thermal behavior numerical method computer simulation

分类号 TF777 [冶金工程—钢铁冶金]

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International Journal of Minerals,Metallurgy and Materials

2010年第3期

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