材料与冶金学报2026,Vol.25Issue(2):131-136,6.DOI:10.14186/j.cnki.1671-6620.2026.02.004
非对称中间包结构优化与应用
Optimization and application of asymmetric tundish structure
摘要
Abstract
A combination of physical modeling and numerical simulation has been employed to investigate the effects of different flow-control schemes on the molten steel flow field and temperature field within the tundish.The results indicate that under water-model conditions,the response time and peak time of the two streams in the original scheme differ significantly,the consistency between the two streams is poor,and the average dead-zone volume fraction is as high as 33.45%.After increasing the dam height and enlarging the distance between the dam wall and the dam,the consistency of the two streams is markedly improved,and the average dead-zone volume fraction decreases to 14.55%.Practical application results show that the temperature difference of the molten steel above the two nozzles in the tundish decreases from 4~6℃to 2~3 ℃,and the total oxygen content in the cast billet is reduced by approximately 27.9%.These findings illustrate that the optimized scheme effectively enhances the metallurgical performance of the tundish and improves the quality of the cast billet.关键词
非对称中间包/死区体积分数/钢液温差Key words
asymmetric tundish/dead zone volume fraction/molten steel temperature difference分类
矿业与冶金引用本文复制引用
赵文静,贺龙龙,陈敏,徐磊..非对称中间包结构优化与应用[J].材料与冶金学报,2026,25(2):131-136,6.基金项目
国家自然科学基金项目(52374328,52174301). (52374328,52174301)
