INFLUENCE OF CONTINUOUS STEEL CASTING CONDITIONS ON BEHAVIOR AND STABILITY OF LIQUID MOLD SLAG DURING SLAB CASTING – PHYSICAL MODELING

Metallurgy and Foundry Engineering Pub Date : 2018-10-22 DOI:10.7494/MAFE.2018.44.1.17
M. Bielnicki, J. Jowsa
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Abstract

This article presents the results of the physical modeling of the continuous casting of steel slabs in a mold. The experiments focused on the assessment of the shape and stability of the liquid mold slag layer, which was reproduced in studies using silicone oil. The experimental tests were carried out for two different geometries of the submerged entry nozzle, two extreme submergence depths of the submerged entry nozzle (0.215 and 0.295 m), and two extreme casting speeds (1.0 and 1.6 m/min) used in industry. For each variant of the experiment, photographic documentation of the oil layer’s behavior was presented and discussed. The research was supplemented with a visualization of the flow structure using a marker for the selected variant of the experiment.
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连铸条件对板坯连铸液渣行为和稳定性的影响——物理建模
本文介绍了钢坯在结晶器内连铸的物理建模结果。实验的重点是评估液态模具渣层的形状和稳定性,并在使用硅油的研究中进行了再现。对两种不同形状的浸没式入口喷嘴、浸没式入口喷嘴的两种极限浸没深度(0.215和0.295 m)以及工业上使用的两种极限铸造速度(1.0和1.6 m/min)进行了实验测试。对于实验的每个变体,给出并讨论了油层行为的摄影记录。该研究还补充了使用标记对选定的实验变体进行流动结构的可视化。
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Metallurgy and Foundry Engineering
Metallurgy and Foundry Engineering
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