Nickel Copper Sludge
Ferro Silicon Ferro Silicon has a melting point of 1200°C to 1250°C with a boiling point of 2355°C and Ferro Silicon contains about 2% of calcium and alluminium. Ferro Silicon, as an additive to the production process of ferrous metals, will impart several desirable properties upon the resultant alloy. Some of the primary benefits of adding Ferro Silicon to an alloy is to improve the corrosion resistant properties of the new compound, as well as to add to the high temperature heat- resistance properties of the new alloy, for example, in the production of silicon steel for use in transformer cores. Ferro Silicon is an atomised alloy, which is formed by combining iron and silicon with a silicon content range of 15% to 90%. Ferro Silicon is a universal “heat-blocker” used in the production of carbon and stainless steels.
Ferrochrome Ferrochrome is an alloy of chromium and iron containing between 50% and 70% chromium. Ferrochrome is produced by electric arc melting of chromite and chromium ore. Most of the world?s Ferro-Chrome is produced in South Africa which has large domestic chromite resources. The production of steel is the largest consumer of Ferrochrome, especially the production of stainless steel with a chromium content of between 10 and 20%.
Silicon Manganese Silicon Manganese is mostly used in steelmaking and foundry activities. Some 30 % of the manganese used today in steelmaking is still used for its properties as a deoxidant and a sulphide former. In this last case it combines with sulphur avoiding the formation of iron sulphides, which sulphides are low melting point phases which become liquid at hot rolling temperatures and which, consequently, generate surface cracking. The other 70% of the manganese is used purely as an alloying element. Steels usually contains anything from 0,2% to 2% manganese depending on grades as manganese is the cheapest alloying element among those which enhance some key mechanical properties such as strength and toughness.
Ferro-Manganese Ferro-Manganese is an alloy with high percentage of Manganese, which is made by heating a mixture of the oxides MnO2 and Fe2O3 and coal & coke with high carbon content in a blast furnace or an electric arc furnace-type system. The oxides go through carbothermal reduction in the furnaces that result in producing the Ferro-Manganese. Ferro-Manganese is used in the production of steel which acts as an excellent deoxidizer and desulfurizer. We supply the one variant of Ferro Manganese: High Carbon Ferro-Manganese.
Nickel Sludge is one of its kind and is widely used in varied industries. It is perfectly manufactured by making use of optimum grade nickel material and sophisticated techniques. The product can be used in nickel-metal hydride batteries for electrical power generation, or it can be briquetted and used in the nonferrous metal foundry industry. Solid wastes generated throughout the processing will be converted in an environmentally acceptable manner into a vitrified product. The nickel sludge we offer is available at affordable prices and also in customized specifications. Specification: Nickel : 20% up Moisture : 0%-20% Physical Status : SLUDGE
Supplier: Nickel/copper sludge, ferrochrome, silicon manganese, chrome concentrates
Zirconium is a very strong, malleable, ductile, lustrous silver-gray metal. Its chemical and physical properties are similar to those of titanium. Zirconium is extremely resistant to heat and corrosion. Zirconium is lighter than steel and its hardness is similar to copper.
Titanium is a strong and lightweight refractory metal. Alloys of titanium are critical to the aerospace industry but, due to their numerous unique properties, are also used in medical, chemical and military applications, as well as in sporting goods.