Blast Furnace Slag, Ggbfs And Iron Ore .
Flyash , gbfs slag, lime stone, clinker, multi commodity item, detergent chemical.
Rare earth minerals and copper slag.
Fly ash, cement, clinker, micro fly ash, slag ggbs.Export
Type C Fly Ash, Steel Slag And Sand.
1. Mill scale 2. Copper slag. 3. Oil sludge. 4. Aluminium Dross.
Large steel castings, ball mill girth gear, ball mill trunnion, kiln support roller, kiln thrust roller, vertical mill parts, slag pot, rolling mill parts.Custom manufacture service
Pig iron, blast furnace slag.
Copper slag, coconut and allied products.Customs clearing agent, shipping and transporters
Bbq briquette saw dust hex charcoal, ggbs ground dranulated blast furnace slag, Mono propylene Glycol, DPG.Exporting
Blast furnace slag.Export
Graphite electrode , recarburizer , cpc coke, gpc coke, premelting refining slag.
Slag, iron ore, pebble stone.
High titanium slag, ilmenite sand, zircon sand.
Ores, slag and ash, precious metals, fused magnesia, dead burnt magnesite, bfa .Trade and export services
Blast media for sand blasting & concrete raw material for construction companies.
Zorba aluminium scrap EAF Slag.
Eaf dust, mill scale, zinc slag, zinc dust, iron ore.
LAG-S200 Ladle Slag Detection System (Vibration Type) Overview The continuous casting vibration type ladle slag detection device is used to detect the slag content of the ladle nozzle in the steelmaking continuous casting process, so as to improve the cleanliness of the tundish molten steel and obtain the best yield of the ladle molten steel. The device adopts the principle of vibration detection. The LAG-S200 continuous casting ladle slag automatic detection system after many years of research with many scientific research institutes, and fully combined with the actual situation on site. It has a real field application value as a continuous casting ladle slag automatic detection system. The meaning of the system 1. Reduce the amount of tundish slag 2. Improve the purity of molten steel 3. Improve the life of the tundish 4. Reduce sliding nozzle erosion 5. Reduce nozzle blockage 6. Increase the number of continuous pouring furnaces 7. Reduce the amount of residual steel in the ladle when high-quality steel is casting 8. Improve the yield of molten steel 9. Improve the quality of continuous casting billets In order to improve the purity of the molten steel in the tundish, and improve the quality of the casting billet, especially to improve the quality of the billet in the transition section, and reduce the amount of residual steel in the high-quality ladle, and prolong the life of the tundish lining, and increase the number of continuous casting furnaces, necessary to detect and control the slag in the later stage of continuous casting ladle casting. The Working principle of the system The LAG-S200 continuous casting ladle slag automatic monitoring system detects the slag state during the pouring process by receiving the vibration signal of the mechanical operating arm of the ladle nozzle. In the process of molten steel pouring, when molten steel flows through the long nozzle and pours into the tundish, the molten steel impacts the wall of the long nozzle and causes the vibration of the mechanical operating arm used to support the long nozzle. Since the specific gravity of the steelmaking slag is less than half of the specific gravity of the molten steel, it floats on the surface of the molten steel, and the steelmaking slag appears when the molten steel is about to be all poured. At this time, due to the high viscosity and poor fluidity of light steelmaking slag, the impact force of the mixed flow of molten steel and steel slag on the wall of the long nozzle is quite different from that of pure molten steel. The system mainly monitors the ladle slag of the continuous casting by measuring and analyzing the vibration difference of the mechanical operating arm.
LAG-S400 Infrared Converter Slag Detection System Overview The infrared converter slag detection system uses a far-infrared thermal imager to monitor the situation of converter tapping in real time, and is connected to the main control computer in the electrical room through the conversion and transmission of video signals. The radiation intensity in the infrared wavelength range of 7-14um is different to distinguish molten steel and slag. In the later stage of the converter tapping, the molten steel gradually decreases, and the steelmaking slag is involved in the molten steel and flows out of the tapping hole. After the thermal imager recognizes the steelmaking slag in the imaging temperature measurement, it will give an alarm according to the slag content ratio threshold set by the software. The thermal imager will start the slide plate to close the tapping hole, so as to realize the control of the slag in the converter tapping, and ensure the maximum yield of molten steel and the minimum control of the steelmaking slag content. The effect of slag detection in converter tapping is of great significance to the control effect of the slag amount. The converter slag detection and control system developed by our company conducts non-contact monitoring of the tapping steel flow through the far-infrared detector thermal imager. It can detect the slag condition in real time and output an alarm signal and control system, which can replace manual visual inspection and provide accurate, efficient and stable slag detection effect. When the system finds the slag, the intelligent control unit quickly makes a judgment of lifting the furnace and blocking the slag and outputs an alarm signal. As shown in Figure 1, the system includes thermal imager, front purge protection box, front electrical box, power distribution cabinet, main control monitor, monitor of rocking furnace chamber, sound and light alarm, infrared converter slag monitoring software system, etc. The technical parameters 1. Temperature measurement range: 200-1800 2. Temperature measurement accuracy: 2% 3. Detection accuracy and alarm accuracy: 98% 4. Resolution: 0.5 5. Pixels: 640x240 6. Band: 7~14um 8. Frame rate: 25 frames/sec 9. Equipment service life: 5 years 10. The normal operation rate of the automatic control system 99%
