we are ready to supply you with all kinds of pig Iron ingots! C: 4.30- 4.50 Si: 1.5- 2.00 Mn: 0.30- 0.70 P: 0.07- 0.15 S: 0.07- 0.15 Cr: 0.12-0.32
Fe total: 90 min Fe metalico: 84.7min Carbon: 0.7
Foundry Pig Iron is suitable for iron castings used in general engineering, machine tools and parts for the automotive industry. Due to the high proportion of iron ore used in the production of Foundry Pig Iron, the formation of pearlite in the finished casting is promoted. This effect is enhanced when more than 10% of Pig Iron per charge is used. The use of Foundry Pig Iron promotes graphite formation, reduces primary chill and improves machinability, particularly important in thin-walled castings The use of costly chill reducing inoculants can be minimised through increased addi- tions of Foundry Pig Iron. The high density and high carbon content of Foundry Pig Iron improves melting rates or reduces energy consumption. In an electric induction furnace savings can be as high as 50 kWh/t of molten metal. In a cupola furnace savings of up to 50 kg coke/t of molten metal can be achieved. The higher bulk density of pig iron relative to scrap means lower storage space re- quirements, less handling during charge make-up, fewer charge buckets and lower charging time. â?¢ The lower surface area : volume ratio relative to scrap means lower oxide (rust) for- mation and thus lower slag volume. The carbon content is chemically combined and thus goes into solution more quickly with lower energy requirement than when adding a recarburiser to scrap
Pig iron.Trading
Pig iron.
Pig Iron.
Pig iron, nodular pig iron, foundry coke.Trading, import and export
Scrap, pig iron, billet, equal angles, flat bars, square bars, round bars, upn, ipn, square & rectangular profiles, d-bars, wire rod, hrc, crc, galvanized steel, chequered plates.
1, Iron Ore for sell Specifications ; Fe Total 64,92% FeO 6,35% As
Pig iron, ferro alloys.
Ironing Board with Adjustable Height Mechanism Heat Resistant Cotton Cover Monoblock Metal Base Non Slip Legs
Pig iron, sponge iron, cast iron, steel cast, billet, rebar,.
Ferro Silicon, Pig Iron, Galvanized Sheet, Iron Products, Fluorspar Ball.
Mineral Ores, Anthracite, PCI, Steam Coal, Ferro Alloys, Slag, Pig Iron..
Steel reinforcing steel bar, iron rods, deformed steel reinforcing bar, screw thread steel steel reinforcing bar, all kinds of steel bars, steel billet, iron scrap.
Cement, clinker, bauxite, gypsum, fly ash, ggbfs, iron & steel products, kaolin, scrap, pumice stone.
Copper ore, chrome ore, zinc ore, iron ore, aluminium ingots.Mining
Ferro alloys, non ferrous metals, pig iron, metallurgical coke, graphite electrode, recarburizers, refractories, cored wires and other additives as well as chrome ore, manganese ore and copper concentrate mines.Trader, export
Cold Briquetted Iron (CBI) is defined as DRI which has been molded at a temperature less than 650 �°C or with a density of less than 5000 kg/m3. Due to the raw material sharp shortage for steelmaking in many countries worldwide, a need arises to find a substitute material to replace the rare pig iron and expensive steel scraps that were used by steelmaking plants. 1- More density and less porosity The apparent density of CBI is about 8.3 grams per cubic centimeter and the density of DRI is about 2.3 grams per cubic centimeter. On the other hand, the volumetric porosity of these two products is about 30 and 50%, respectively. These two factors reduce the environmental reactivity of CBIC and its lower transportation costs. 2- Less fine The wear resistance and higher mechanical strength of CBI compared to sponge iron causes less softening to occur during the handling of the product, and as a result, both the economic value of the product is prevented and the charge losses of the product in the steelmaking furnace are prevented. is significantly reduced. 3- Easier to store and carry Due to the lower reactivity of CBI compared to DRI, the loss of metal grade of the product during storage and transportation is significantly reduced, which will reduce the amount of economic value loss of the product from the time of production to the time of use in the steelmaking furnace. On the other hand, sea transportation of CBI leads to a reduction in transportation costs compared to DRI due to the absence of the need to apply neutral gas to prevent product activation. 4- More thermal and electrical conductivity The thermal and electrical conductivity of CBI is about 2 times that of DRI. This higher conductivity of CBI improves the distribution of heat created in the steelmaking furnace and, as a result, accelerates the melting process of iron materials. This will mean reducing the melting time of the steelmaking process and improving the production capacity of the steelmaking unit. 5- Carbon adjustment The presence of carbon in steelmaking furnaces is necessary in order to provide carbon for the final steel product, prevent excessive losses of iron, and also regulate the physical and chemical conditions of the slag. Usually, induction furnaces require low-carbon iron materials, but in electric arc furnaces, high-carbon iron materials are more attractive. The unique feature of CBI product is the ability to adjust its carbon content in the range of 0.5 to 4% by weight and based on the needs of customers.
GG20,GG25,GG30
