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作 者:张华[1] 倪红卫[1] 成日金[1] 李熠[1] 易卫东[2] 叶途明[2]
机构地区:[1]武汉科技大学钢铁冶金及资源利用省部共建教育部重点实验室,武汉430081 [2]武汉钢铁(集团)公司第一炼钢厂,武汉430083
出 处:《特殊钢》2010年第5期29-32,共4页Special Steel
摘 要:根据武钢第一炼钢厂重轨钢连铸生产条件,建立380mm×280mm方坯凝固传热数学模型,并采用射钉法验证及修正。模拟结果表明,U71Mn和U75V钢的凝固末端各自位于距结晶器液面16.96~21.68m和16.50~21.17m;减弱二冷强度或增大拉速,U71Mn和U75V钢凝固终点均会明显后移。根据计算结果,二冷制度由弱冷(0.346L/kg)改为超弱冷(0.218L/kg),拉速采用0.7m/min,应用1~4。机架轻压下,压下量为5~7mm,U71Mn和U75V钢凝固终点延长至21m以上。连铸工艺优化后,重轨钢大方坯中心疏松Ⅰ级内平均合格率由89.64%提高到99.50%。Based on condition for heavy rail steel concasting at Nol Steelmaking Plant, Wuhan Iron and Steel Co, the math model for solidification heat transfer model of 380 mm× 280 mm bloom has been established, and tested and modified by pin-shooting technique. Simulation results show that the distance of end position of solidification of heavy rail steel U71Mn and U75V from meniscus is respectively 16. 96 -21.68 m and 16. 50 -21.17 m; with decreasing intensity of secondary cooling or increasing casting speed, the end position of solidification of steel UT1Mn and U75V is obviously prolonged forward. According calculated results, as secondary cooling schedule changes from weak cooling (0. 346 L/kg) to extra-weak cooling (0. 218 L/kg) with casting speed 0. 7 m/min, using soft reduction 5 ×7 mm at Nol -4 stand, the end position of solidification of steel U71Mn and U75V is prolonged to more than 21 m. After concasting process optimization, the qualified percentage for center porosity in bloom of heavy rail steel ≤rating 1 increases from 89.64% to 99. 50%.
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