Analysis of Thermal Behavior for Beam Blank Continuous Casting Mold 被引量：3

Analysis of Thermal Behavior for Beam Blank Continuous Casting Mold

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摘要 Finite element models of steady heat conduction for cross section of beam blank mold were developed by using ABAQUS software. The effect of mold grinding thickness, cooling water velocity, diameter of restrietor rods and water channel design on hot face temperature was analyzed in detail. Attention was focused on the peak temperature and temperature uniformity along hot face. The results showed that the peak temperature of existing mold, about 337.2 ℃, is located in the fillet, and two valleys of hot face temperature are found in flange corner and junction of wide face and narrow face, respectively. Decreasing mold thickness, increasing cooling water velocity and increasing diameter of restrictor rods can all reduce peak temperature and improve temperature uniformity along hot race at the expense of lower overall temperature. Redesigning the water channel can decrease peak temperature and thermal gradient of mold without lowering overall temperature of hot face. In particular, the small hole design can improve temperature uniformity across hot face and obtain the best advantage. Finite element models of steady heat conduction for cross section of beam blank mold were developed by using ABAQUS software. The effect of mold grinding thickness, cooling water velocity, diameter of restrietor rods and water channel design on hot face temperature was analyzed in detail. Attention was focused on the peak temperature and temperature uniformity along hot face. The results showed that the peak temperature of existing mold, about 337.2 ℃, is located in the fillet, and two valleys of hot face temperature are found in flange corner and junction of wide face and narrow face, respectively. Decreasing mold thickness, increasing cooling water velocity and increasing diameter of restrictor rods can all reduce peak temperature and improve temperature uniformity along hot race at the expense of lower overall temperature. Redesigning the water channel can decrease peak temperature and thermal gradient of mold without lowering overall temperature of hot face. In particular, the small hole design can improve temperature uniformity across hot face and obtain the best advantage.

作者 XU Hai-lun WEN Guang-hua SUN Wei WANG Kai-zhong YAN Bo

机构地区 College of Materials Science and Engineering Ma'anshan Iron and Steel Co Ltd College of Resources and Environmental Science

出处《Journal of Iron and Steel Research(International)》 SCIE EI CAS CSCD 2010年第12期17-22,共6页 钢铁研究学报（英文版）

关键词 beam blank continuous casting mold thermal behavior temperature distribution beam blank continuous casting mold thermal behavior temperature distribution

分类号 TG155.1 [金属学及工艺—热处理] TF341.6 [冶金工程—冶金机械及自动化]

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Journal of Iron and Steel Research(International)

2010年第12期

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