摘要
研究了铸机矫直区现行喷嘴布置对板坯冷却效果的影响,并在喷嘴自动化测试平台上进行一系列喷嘴的组合实验,从喷嘴流量、喷射高度和水压三个方面探讨了相邻喷嘴喷淋水重叠度与水量在板坯宽度方向分布均匀性的关系.在此基础上,对现行的二次冷却系统提出了优化方案.实验结果表明,优化后,铸坯角部横裂基本消除,铸坯中心偏析从B类1.0减轻至C类1.5,其等轴晶比例提高了4.1%,明显地改善了铸坯的内部质量.
This research focused on the influence of existing nozzles arrangement at the straightening zones of a caster on the cooling effect of slabs. Through a series of tests for combined nozzles on the nozzle automatic testing platform, the relationship between the spray overlap degree of adjacent nozzles and the uniformity of water distribution in the slab width direction was analyzed from three as- pects including nozzle flowrate, injection height and hydraulic pressure. Based on the above research results, an optimization scheme was put forward for the secondary cooling system. Experiment results show that the internal quality of slabs improves significantly after optimization. Transverse corner cracks in slabs are almost eliminated, the center segregation level reduces from B 1.0 to C 1.5, and the ratio of equiaxed grains increases by 4.1%.
出处
《北京科技大学学报》
EI
CAS
CSCD
北大核心
2010年第8期1064-1070,共7页
Journal of University of Science and Technology Beijing
基金
教育部新世纪优秀人才支撑计划资助项目(No.NCET07-0067)
关键词
含铌钢
板坯
连铸
二次冷却
喷嘴
布置
Nb-microalloyed steel
slab
continuous casting
secondary cooling
nozzle
arrangement
