The ladle bottom argon blowing process has an important influence on the refining liquid steel. The effects of diameters, insertion depth of immersed cylinder and bottom gas flow rate on the flow state of liquid steel and the amplitude of liquid steel surface are numerically simulated for 150t ladle. The results show that the slag entrapment of liquid steel surface can be confined by changing the diameters and insertion depths of immersed cylinder. The effects of gas flow rate, diameter and insertion depth with immersed cylinder on the flow of molten steel in the ladle were analyzed
In this work, the fluid dynamic and thermal behavior of steel was analyzed during argon gas stirring...
Abstract In secondary metallurgy, argon gas stirring and alloying of elements are very important in...
This article presents a review of the research into gas stirring in ladle metallurgy carried out ove...
The ladle bottom argon blowing process has an important influence on the refining liquid steel. The ...
Ladle metallurgy is one of the most important stages for producing high quality and clean steel in t...
A two dimensional Computational Fluid Dynamics (CFD) model was developed to simulate the fluid flow ...
Abstract In ladle metallurgy of steelmaking, the role of gas injection into the metal bath is been ...
Purging the liquid steel with inert gases is a commonly used treatment in secondary metallurgy. The ...
In order to increase the productivity, the gas bottom blowing technique has been widely applied to m...
The increasing demands for high cleanliness steel products require the continuous improvement of ste...
Secondary steelmaking or ladle metallurgy is one of the important processes that adjust and homogeni...
Abstract In ladle metallurgy, gas stirring and behavior of the slag layer are very important for th...
The global steel industry, serving as a fundamental cornerstone of modern civilization and essential...
A three-dimensional mathematical model of gas−liquid two-phase flow has been established to st...
Abstract In secondary steelmaking, the optimal size and position of open‐eye is important for effec...
In this work, the fluid dynamic and thermal behavior of steel was analyzed during argon gas stirring...
Abstract In secondary metallurgy, argon gas stirring and alloying of elements are very important in...
This article presents a review of the research into gas stirring in ladle metallurgy carried out ove...
The ladle bottom argon blowing process has an important influence on the refining liquid steel. The ...
Ladle metallurgy is one of the most important stages for producing high quality and clean steel in t...
A two dimensional Computational Fluid Dynamics (CFD) model was developed to simulate the fluid flow ...
Abstract In ladle metallurgy of steelmaking, the role of gas injection into the metal bath is been ...
Purging the liquid steel with inert gases is a commonly used treatment in secondary metallurgy. The ...
In order to increase the productivity, the gas bottom blowing technique has been widely applied to m...
The increasing demands for high cleanliness steel products require the continuous improvement of ste...
Secondary steelmaking or ladle metallurgy is one of the important processes that adjust and homogeni...
Abstract In ladle metallurgy, gas stirring and behavior of the slag layer are very important for th...
The global steel industry, serving as a fundamental cornerstone of modern civilization and essential...
A three-dimensional mathematical model of gas−liquid two-phase flow has been established to st...
Abstract In secondary steelmaking, the optimal size and position of open‐eye is important for effec...
In this work, the fluid dynamic and thermal behavior of steel was analyzed during argon gas stirring...
Abstract In secondary metallurgy, argon gas stirring and alloying of elements are very important in...
This article presents a review of the research into gas stirring in ladle metallurgy carried out ove...