Application Scenarios of Metallurgical Equipment

Apr 11, 2026 Leave a message

Core Metallurgical Production Scenarios

 

Metallurgical equipment is the core equipment in the production of steel and non-ferrous metals, covering the entire chain from raw material processing to finished product processing:

 

Ironmaking: The core equipment, the blast furnace, is used for the reduction smelting of iron ore to produce pig iron. The accompanying belt conveyor handles the transportation of raw materials such as ore, sinter, and coke. On-site oxygen generators provide the oxygen needed for oxygen-enriched blast furnaces, enhancing coke combustion and increasing output.

 

Steelmaking: The converter uses oxygen blowing to remove impurities from molten iron and improve steel quality. The electric arc furnace uses electricity to heat scrap steel to smelt molten steel. Oxygen generators provide high-purity oxygen to meet oxidation requirements. Belt conveyors are responsible for transporting scrap steel and alloy auxiliary materials, while continuous casting equipment continuously casts molten steel into billets, square billets, and other specific shapes.

 

Metal Processing: Rolling equipment rolls billets into finished steel products such as plates, pipes, profiles, and wires; subsequent finishing equipment completes deep processing of the rolled materials, including pickling, annealing, coating, and shearing; belt conveyors connect all processes to transport billets, intermediate products, and finished products.

 

Hydrometallurgical Scenarios: PPH reactors (stirred tanks) can withstand strong acid and alkali corrosion and are widely used in the leaching, purification, and electrolysis of non-ferrous metals such as copper, zinc, nickel, and cobalt, adapting to different needs from laboratory pilot-scale testing to large-scale mass production.

 

Special Small-Batch/Experimental Scenarios: Stainless steel crucibles are suitable for high-temperature smelting, precious metal casting, and laboratory new material research and development, and can withstand smelting temperatures up to 1600℃, meeting the needs of metal purification and sample testing at different scales.