1. Serving as the backbone of coking processes, more than 90% of all coke is allocated to blast furnace ironmaking globally. By supplanting charcoal in iron smelting, coke has dramatically transformed the foundation of modern large blast furnaces, achieving a groundbreaking milestone in the annals of metallurgy.
2. Coke is indispensable in the smelting of non-ferrous metals such as copper, lead, zinc, titanium, and antimony. It functions as a crucial reducing agent, a vital heat source, and provides structural support within blast furnaces.
3. Within the smelting sector, coke is integral to the production of calcium carbide, carbon disulfide, phosphorus, and other critical compounds. In steel joint ventures, coke powder is utilized as an effective sintered fuel and as a primary raw material in synthesizing water gas.
4. To maximize the technical and economic metrics of blast furnace operations, metallurgical coke must exhibit precise chemical, physical, and thermal properties that are vital for the smelting process.
5. Beyond its extensive application in iron and non-ferrous metal smelting, coke also plays a role in casting, chemical production, calcium carbide, and ferroalloys, broadening its industrial utility.
Our coke stands as a potent substitute for refinery coke or stone grinds, delivering a cost-effective solution. With a calorific value surpassing 9386K/KG, it serves as a viable fuel, potentially replacing burnt carbon, which demands export quotas. Thus, our carburizing agent presents a remarkable cost-effectiveness advantage.
Audited Supplier 
){kind=link}