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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Advances in Magnetism and Magnetic Materials

Presentation Title

Numerical Simulation of Puddle Characteristics and Heat Transfer Behavior in Planar Flow Casting

Author(s)

Wen-wen Feng, Pu Wang, Lin Yuan, Dong Yang, Jia-quan Zhang

On-Site Speaker (Planned)

Wen-wen Feng

Abstract Scope

In this study, A two-dimensional multiphase coupled numerical model incorporating fluid flow and heat transfer was established to analyze the effects of various process parameters on the morphology of the puddle, strip thickness, and temperature distribution. Increasing the melt injection velocity from 1.25 m/s to 1.75 m/s resulted in a 5.2 痠 increase in strip thickness, a 27.3 K rise in maximum copper roller surface temperature, and an 18 痠 increase in thermal deformation. When the nozzle width was expanded from 0.34 mm to 0.46 mm, the maximum copper roller surface temperature rose by 37.7 K, while the strip thickness and thermal deformation increased by 12.5 痠 and 26 痠, respectively. Additionally, enlarging the roller-nozzle gap from 0.3 mm to 0.4 mm resulted in a 0.6 痠 increase in strip thickness, a 5.4 K temperature rise, and a 3 痠 increase in thermal deformation.

Proceedings Inclusion?

Planned:

Keywords

Modeling and Simulation, Solidification, Other

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