Abstract: A method of producing a fluxing agent that can be used in production of steel, preferably stainless steel, employs as a raw material a hydroxide sludge that results from neutralization of metal-contaminated pickling liquid from a pickling step for a steel and contains at least one fluoride-containing compound. The hydroxide sludge is calcined. Steel, preferably stainless steel, is produced by decarburizing a steel heat, whereby a slag is formed on top of the steel heat, and adding a fluxing agent to the slag.
Abstract: The present invention provides a cored wire injection process for introducing fluxes and alloying additives in liquid steel bath. The bath temperature and chemistry of the liquid steel is adjusted according to requirements in a secondary treatment unit. The additives are released from the cored wire, while controlling the zone of release. The yield of the additives can thus be controlled by changing dimension of the cored wire and speed of injection to suit the grade of steel processed and the treatment temperature. The zone of release is preferably close to the bottom of the ladle and the diameter and sheath thickness of the cored wire are preferably more than 13 mm and 0.4 mm respectively.
Abstract: Dealuminizing cast iron by contacting it with free-flowing flux particles having a solid silica core and a molten silica shell wherein said flux comprises silica and about 1% to about 5% calcium fluoride.
Abstract: The desulfurization agent for molten iron is made up of 95 to 70% commercial calcium carbide, 30 to 5% calcium aluminate slag, and 10 to 0% of a metal oxide. The calcium aluminate slag is made up of 65 to 50% calcium oxide, 35 to 25% aluminum oxide, and 12 to 3% calcium fluoride. The metal oxides are ferric oxide, manganomanganic oxide and ferrosoferric oxide. The desulfurizing agent has been found to reduce the amount of calcium carbide in the resulting slag.