Application of Reinforced Continuous Slab Hot-Loaded and Hot-Sent Technology
I. Introduction
Reinforcement of continuous casting slab hot-loaded and hot-fed technology is the most important process of the steel production process and is the most critical process in improving the quality and efficiency of steel production. In order to save energy and increase production efficiency and quality, this technology has been widely used in production. In this paper, the improvement and application of reinforcement continuous slab hot loading and hot feeding technology will be introduced.
II. Improvement of Reinforced Continuous Slab Hot Loading and Hot Feeding Technology
1. Accelerating the solidification speed of the slab
The main purpose of strengthening the continuous casting slab hot loading and hot feeding technology is to improve the solidification speed of the slab through the combined effect of the direct heating and cooling of the slab. Through the improvement of this technology, the cooling effect of the slab can be improved, and the solidification speed of the slab can be accelerated, which can effectively improve the production efficiency.
2. Increasing the casting quality of the slab
Reinforced continuous casting slab hot-loaded and hot-fed technology can also improve the casting quality of the slab by increasing the hot load, improving the heat exchange effect, and optimizing the slab texture. In order to improve the casting quality, this technology should be closely combined with the reasonable operation parameters, process parameters and casting conditions, and reasonable adjustments should be made according to the specific production conditions, so as to effectively control the slab surface quality.
3. Energy saving effect
Strengthening the continuous casting slab hot loading and hot feeding technology can also reduce the energy consumption in the steel-making process by improving the heat exchange effect and optimizing the working parameters. After the optimization of this technology, the energy consumption of the steel-making process can be reduced, which can improve the energy efficiency of the steel-making process.
III. Application of Reinception continuous Slab Hot Loaded and Hot Sent Technology
1. Design of technology
The design of reinforced continuous casting slab hot-loaded and hot-fed technology should be based on the specific production requirements, the compatibility of each technology and the overall industrialized production. The design involves the optimization of heat exchange rate, the optimization of casting process parameters and the combination of relevant technologies.
2. Selection of Equipment
The selection of equipment needs to select the appropriate equipment according to the specific production conditions, such as the type of continuous casting machine, the temperature of molten steel, the ejection device, etc., to ensure the normal operation of the equipment and the successful implementation of reinforcement continuous slab hot loading and hot feeding technology.
3. Operation management
In order to ensure the normal operation of the reinforced continuous slab hot-loaded and hot-fed technology and the successful implementation of the production process, reasonable operation management and strict process control need to be completed. During the production process, the production conditions should be monitored in real time, and timely adjustment should be made to ensure the successful implementation of the technology and the quality of the steel product.
IV. Conclusion
Reinforced continuous casting slab hot-loaded and hot-fed technology has been widely used in steel production because of its advantages of energy saving, high production efficiency and high product quality. The optimization of the system, the reasonable selection of equipment and the strict management of operations are the key factors to ensure the successful implementation of this technology. Through reasonable application of reinforced continuous slab hot-loading and hot-feeding technology, the production efficiency can be effectively improved and the production cost can be effectively reduced.
