Research on the flowing behavior of molten steel in the continuous casting mold is the key to promote the smooth process of continuous casting and improve the quality of casting blanks. In this article, a three-dimensional solid model of 230 mm × l 600 mm is created based on actual wide slab mold, and analyze the influence of the casting speed, nozzle angle and immersion depth on the flowing behavior of molten steel. It is concluded that the suitable nozzle angle and immersion depth at a certain casting speed can provide theoretical support for continuous casting efficiently and the process optimization
Continuous Casting (CC) is an essential process in the steel industry to transform molten steel into...
A fluid flow of molten steel in continuous casting mold directly results in slab surface and interna...
In the present work, the flow field in a slab continuous casting mold with thicknesses of 180 and 25...
Research on the flowing behavior of molten steel in the continuous casting mold is the key to promot...
A reasonable flow field in the continuous casting mold is beneficial to produce high quality billets...
A three-dimensional numerical simulation of transient fluid flow field during the solidification pro...
In this paper, the effects of the width of the mold on the surface velocity, flow field pattern, tur...
Interaction of solidified shell and fluid flow inside the mold cavity governs the quality in the con...
In this paper, the mathematical model and numerical simulations of the molten steel flow by the subm...
A three-dimensional model of the thick slab continuous casting mould of 400 × 2200 mm was establishe...
Flow dynamics of liquid steel within the Continuous Casting (CC) mould are critical for process stab...
A simple, but comprehensive model of heat transfer and solidification of the continuous casting of s...
The current demands on Swedish steel industry to produce low quantity batches of specialized product...
Abstract The mathematical and numerical simulation model of the growth of the solid metal phase with...
Undesirable flow variations can cause severe instabilities at the interface between liquid mold flux...
Continuous Casting (CC) is an essential process in the steel industry to transform molten steel into...
A fluid flow of molten steel in continuous casting mold directly results in slab surface and interna...
In the present work, the flow field in a slab continuous casting mold with thicknesses of 180 and 25...
Research on the flowing behavior of molten steel in the continuous casting mold is the key to promot...
A reasonable flow field in the continuous casting mold is beneficial to produce high quality billets...
A three-dimensional numerical simulation of transient fluid flow field during the solidification pro...
In this paper, the effects of the width of the mold on the surface velocity, flow field pattern, tur...
Interaction of solidified shell and fluid flow inside the mold cavity governs the quality in the con...
In this paper, the mathematical model and numerical simulations of the molten steel flow by the subm...
A three-dimensional model of the thick slab continuous casting mould of 400 × 2200 mm was establishe...
Flow dynamics of liquid steel within the Continuous Casting (CC) mould are critical for process stab...
A simple, but comprehensive model of heat transfer and solidification of the continuous casting of s...
The current demands on Swedish steel industry to produce low quantity batches of specialized product...
Abstract The mathematical and numerical simulation model of the growth of the solid metal phase with...
Undesirable flow variations can cause severe instabilities at the interface between liquid mold flux...
Continuous Casting (CC) is an essential process in the steel industry to transform molten steel into...
A fluid flow of molten steel in continuous casting mold directly results in slab surface and interna...
In the present work, the flow field in a slab continuous casting mold with thicknesses of 180 and 25...