SEN浸泡深度对连铸过程中结晶器流态和夹渣的影响

Metallurgical and Materials Engineering Pub Date : 2021-10-05 DOI:10.30544/653

P. Mallikarjunarao, Vaibhav Vasantrao Chougale, D. Satishkumar, T. Rajendra, G. Balachandran

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引用次数: 0

摘要

连铸过程中结晶器熔剂的滞留会导致最终产品的表面和次表面缺陷。连铸操作参数，如浇注速度、SEN浸泡深度、SEN端口几何形状、氩气流量和模具EMS显著影响模具流动条件和流动轮廓。在连铸过程中，为了避免SEN的局部侵蚀，SEN的浸泡深度不断变化，这会影响模具内的流动动力学。在目前的工作中，在一个0.5缩小的水模型上，进行了大范围的模具宽度(1200-1800毫米)和铸造速度(0.8-1.4米/分钟)的水建模研究，以优化SEN浸泡深度和模具宽度的不同组合的铸造速度。水模型的结果在实际工厂的钉板研究中得到进一步验证。通过这些试验确定了一种安全的操作矩阵，以避免在连铸过程中夹渣。

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Effect of SEN immersion depth on mold flow profile and slag entrapment during continuous casting of steel

Mold flux entrapment during continuous casting of steel contributes to both surface and sub-surface defects in the final product. Continuous casting operating parameters such as casting speed, SEN immersion depth, SEN port geometry, argon flow, and mold EMS significantly affect the mold flow conditions and flow profile. During continuous casting operation, SEN immersion depth is continuously varied to avoid localized erosion of SEN, and it impacts the flow dynamics in the mold. In the present work, water modeling studies were carried out for a wide range of mold widths (1200-1800 mm) and casting speeds (0.8-1.4 m/min) on a 0.5 scaled down water model to optimize casting speed for different combinations of SEN immersion depth and mold width. Results from water modeling were further validated using nail board studies in the actual plant. A safe operating matrix was identified from these experiments to avoid mold slag entrapment during continuous casting.

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Metallurgical and Materials Engineering

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