Abstract
In this paper, the flow field of the approximate T-shaped tundish and the removal rate of fine inclusions are improved by changing the parameters of the flow control device of the SCB (stabilizer coupling baffle) structure. Studies have shown that the synergistic effect of the DPRW (double porous retaining wall) structure and the IRS (internal rotation stabilizer) structure has excellent performance in mixing the temperature composition of the molten steel, increasing the average residence time of the molten steel, reducing the volume fraction of the dead zone, and improving the removal rate of fine inclusions. The opening method and diameter of the double-layer retaining wall have a greater impact on the flow field parameters. The larger the diameter, the more conducive to increasing the average residence time, and the smaller the diameter, the more conducive to increasing the removal rate of fine inclusions.
Subject
General Materials Science,Metals and Alloys
Reference32 articles.
1. Numerical and physical simulation on fluid flow of a tundish of six-strand continuous casting;Tian;Energy Metall. Ind.,2018
2. Tundish Metallurgy: Towards Increased Productivity and Clean Steel
3. Water modeling study on optimization of flow control devices in “t” type tundish of six-strand caster;Fan;Iron Steel,1998
4. Simulation study on optimization of eccentric nozzle structure for round mould;Jin;Foundry Technol.,2016
5. A Simulation Study on the Flow Behavior of Liquid Steel in Tundish with Annular Argon Blowing in the Upper Nozzle
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