HBI is a briquetted form of direct reduced iron with a high iron content (>90%). The chemical composition of the HBI we supply is consistent, with low levels of harmful impurities, such as phosphorus and sulphur. It is free from other harmful elements, such as copper, nickel, and any non-metallic compounds.
We have a unique iron ore resource footprint with large, high-quality resource bases in South Africa and India. Demand for iron ore globally is largely dependent on the state of the steel industry worldwide and, more specifically, on that of the steel manufacturing sector in China. Brat supplies leading quality lump ore and also produces premium fine ore from the mines of its associate company in Goa, India.
Iron ore is a mineral substance which, when heated in the presence of a reductant, will yield metallic iron (Fe). It almost always consists of iron oxides, the primary forms of which are magnetite (Fe3O4) and hematite (Fe2O3). Iron ore is the source of primary iron for the world's iron and steel industries. It is therefore essential for the production of steel, which in turn is essential to maintain a strong industrial base. Our monthly ability to export Iron Ore is of 2000-5000MT per month.
We are counted amongst the leading names of the company that is into offering Iron Ore. The products offered by us are of very fine quality. These products have rich content of iron as a result the users get relatively high amount of iron. Our products are very easily enriched as a result our clients save their precious time and money. We supply Iron Ore in different types- Iron Ore Lumps (Hematite & Magnetite) Iron Ore Fines (Hematite & Magnetite)
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes. As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility.
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes. As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility.
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes. As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility. Ferric oxide 59.60% Aluminum Oxide 13.90% Sulfur dioxide 11.86% Magnesium oxide 6.60% Silicon dioxide 4.20% Calcium oxide 2.70% Manganese(II) oxide 0.39% Nickel oxide 0.14% Chromic oxide 0.14% copper (II) oxide 0.08% Titanium dioxide 0.07% Potassium oxide 0.06% Strontium oxide 0.05% Vanadium oxide 0.03% Zinc Oxide 0.03%
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes. As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility. Ferric oxide 59.60% Aluminum Oxide 13.90% Sulfur dioxide 11.86% Magnesium oxide 6.60% Silicon dioxide 4.20% Calcium oxide 2.70% Manganese(II) oxide 0.39% Nickel oxide 0.14% Chromic oxide 0.14% copper (II) oxide 0.08% Titanium dioxide 0.07% Potassium oxide 0.06% Strontium oxide 0.05% Vanadium oxide 0.03% Zinc Oxide 0.03%
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes.As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility.
Iron ores are rocks and minerals from which metallic iron can be economically extracted. The ores are usually rich in iron oxides and vary in color from dark grey, bright yellow, or deep purple to rusty red. The iron is usually found in the form of magnetite (Fe3O4, 72.4% Fe), hematite (Fe2O3, 69.9% Fe), goethite (FeO(OH), 62.9% Fe), limonite (FeO(OH)n(H2O), 55% Fe) or siderite (FeCO3, 48.2% Fe). Ores containing very high quantities of hematite or magnetite (greater than about 60% iron) are known as natural ore or direct shipping ore, meaning they can be fed directly into iron-making blast furnaces. Iron ore is the raw material used to make pig iron, which is one of the main raw materials to make steel 98% of the mined iron ore is used to make steel. Item Specification Fe: 57 Min SiO2: 4 Max Al2O3: 5.5 Max Moist: 12 Max P: 0.08 Max S: 0.04 Max +40mm: 5 Max -6mm: 20 Max LOI: 7 About TI: 70 Min AI: 15 Max RI: 60 Min RDI: 25 Max DI: 10 Max
High quality Peruvian iron for sale! With a Law Fe% 63.60, our iron ore from Puno mines, Peru, is ready to be exported from FOB Matarani port. At negotiable price per metric ton, we offer an unbeatable deal on the market. Don't miss your chance to purchase a minimum order of 35,000 metric tons of this durable and reliable material. In addition, we guarantee the immediate availability of the product in our collection. Take advantage of this exclusive offer and ensure your iron needs with us. Contact us right now to place your order!
Our iron ore pellets and fines are made from magnetite and have high iron ore content pellets at around 67 percent concentration and fines over 70 percent. This means they have lower impact on the environment than competing pellets and products such as sintered hematite fines. Using pellets instead of sinter (slightly larger pieces of iron ore) in customers pig iron processes saves emissions at steel plants. The high concentration of iron combined with the carefully tested and balanced additives in our pellets also result in lower emissions in customers ironmaking processes.
Iron ores are the raw material used to make iron and steel. Iron ore production has significantly expanded in recent years, owing to increasing steel demands in developing countries, such as China. As the content of iron ore in deposits has deteriorated, low-grade iron ore has been processed. Iron ore concentrate is an output product from processed iron ores that have been milled (crush, grind, magnetic separation, flotation) to separate deleterious elements and produce a high-quality product. Sintering and pelletizing are economic and widely used agglomeration processes to prepare iron ore fines/iron concentrate for ironmaking use. The quality requirements of sinter and pellet, such as physical, chemical, and metallurgical specifications, depend on each ironmaking furnace, and those requirements influence the operation of the iron ore sintering and pelletizing plant. Researchers have usually focused on the effect of the chemical, physical, and mineralogical characteristics of iron ore on these steps and the consequences for sinter/pellet quality and sintering/pelletizing performance. The present Special Issue on Iron Concentrate Particles will summarize the progress achieved in the last five years.