Iron Ore Magnetite The key economic parameters for magnetite ore being economic are the crystallinity of the magnetite, the grade of the iron within the banded iron formation host rock, and the contaminant elements which exist within the magnetite concentrate. The size and strip ratio of most magnetite resources is irrelevant as a banded iron formation can be hundreds of meters thick, extend hundreds of kilometres along strike, and can easily come to more than three billion or more tonnes of contained ore. The typical grade of iron at which a magnetite-bearing banded iron formation becomes economic is roughly 25% iron, which can generally yield a 33% to 40% recovery of magnetite by weight, to produce a concentrate grading in excess of 64% iron by weight. The typical magnetite iron-ore concentrate has less than 0.1% phosphorus, 3â??7% silica and less than 3% aluminium. Currently magnetite iron ore is mined in Middle East,Australia& Canada Magnetite bearing banded iron formation is currently mined extensively in Brazil, which exports significant quantities to Asia, and there is a nascent and large magnetite iron-ore industry in Australia. We can supply Iron ore from lower grade of 40% Fe to 65% Fe. Magnetite is magnetic, and hence easily separated from the gangue minerals and capable of producing a high-grade concentrate with very low levels of impurities The grain size of the magnetite and its degree of commingling with the silica groundmass determine the grind size to which the rock must be comminuted to enable efficient magnetic separation to provide a high purity magnetite concentrate. This determines the energy inputs required to run a milling operation. Mining of banded iron formations involves coarse crushing and screening, followed by rough crushing and fine grinding to comminute the ore to the point where the crystallized magnetite and quartz are fine enough that the quartz is left behind when the resultant powder is passed under a magnetic separator. Generally most magnetite banded iron formation deposits must be ground to between 32 and 45 micrometers in order to produce a low-silica magnetite concentrate. Magnetite concentrate grades are generally in excess of 70% iron by weight and usually are low phosphorus, low aluminium, low titanium and low silica and demand a premium price.
Our Company's main office, Etco fzc, is located in Dubai, UAE. I am their representative in Iran and dealing with exporting Iron Ore from Iran. Through all our connection to many mine owners and Iron Ore trading company, We can provide Iron Ore From 56% (Reject 55%) to 61% (Reject 60%) and with acceptable analysis (See attached photos). Our ability to offer is from 30000 mton/month to 90000 mton/month X 12. The term we prefere is FOB Bandar Abbas Port, Iran (The proposed price is tried to be considered in the way that both sides intrests are seen) The Payment terms must be TT and with 35% to 45% advance payment, about 15% to 20 % after SGS or other labarotories tests and the remaining after each B/L. Please contact me through the followings:
Iron ore is a crucial raw material used in the production of iron and steel. It is a rock or mineral from which iron can be extracted economically. The main types of iron ore are hematite and magnetite, with goethite and limonite also being important sources
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
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.
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%
Iron ore is any rock or mineral from which iron can economically be extracted. It comes in a variety of colors, including dark gray, bright yellow, deep purple, and rusty red. The iron comes in the form of iron oxides such as magnetite, hematite, limonite, goethite, or siderite. Economically viable forms of ore contain between 25% and 60% iron. In the old days of mining, some ores, known as "natural ores," had 66% iron and could be fed into iron-making blast furnaces directly. The three primary sources of iron ore are banded iron formations, magmatic magnetite ore deposits, and hematite ore. The most metal is extracted from banded iron formations, geological structures laid down mostly between 3 and 1.2 billion years ago. Blue-green algae released oxygen in the days when the atmosphere and oceans were very oxygen-poor, binding together with dissolved iron in the world's oceans. These iron fixation events went through cycles as the algae had alternating blooms and busts, leaving the characteristic bands seen in banded iron formations. This ore is in either the form of magnetite or hematite. Banded iron formations are found on all continents, but especially rich deposits are found in Australia, Brazil, and the United States. Another prominent source of iron is found as magmatic magnetite iron ore deposits, formed during ancient volcanic eruptions that released large amounts of magnetite which later crystallized. Granite-associated deposits have been found in places like Malaysia and Indonesia and require very little post-processing to extract the iron. Titanomagnetite, a special class of magmatic magnetite ore, also serves as a source of titanium and vanadium, which is extracted via specialized smelters. A third source is in hematite ore deposits, which are found on all continents, but especially in Australia, Brazil, and Asia. Most hematite originates from banded iron formations that have undergone chemical alteration over billions of years due to hydrothermal fluids. The world's largest producer of iron ore, Vale, located in Brazil, produces it from hematite ore. Vale produces 15% of the entire world's iron supply. In total, worldwide ore production is about one billion metric tons.
Iron Ore Lumpy 62-64% (64.5 Basis) Lumpy 66-68% (68.5 Basis) We currently hold Proxy's with over 20 South African Mines and their associated companies and operations. Aggregated, this translates to a monthly allocation across all three of the following commodities Iron Ore, Chrome ROM/Concentrate and Manganese Ore. We can supply these products on the following basis FOT, DAP, FOB, CFR and CIF We also have payment terms to suit various payment methods and supply a 2% performance bond in favor of the Buyer. Mines are based in Kathu (South Africa) MINIMUM ORDER 300,000 tons per year. LOI required.
Minerals Like Iron Oxide , Magnetite , Manganese Ore , Pyrolusite.
Minerals Like Iron Oxide , Magnetite , Manganese Ore , Pyrolusite..
We supply chrome ore lumpy of size 10-300mm 90% min from grades of 24% to 50% lumpy, ROM and concentrate from Zimbabwe, Oman and South Africa.
Magnetite iron ore fines/iron sand, black sand, magnetite iron ore lumpy form, volcanic lahar sand, copper ore mixed with lumpy form and copper concentrate, nickel ore lumpy form and nickel concentrate, coal.
Gypsum rocks, gypsum powder, rock salt (industrial salt and deicing salt), food grade salt, sodium bicarbonate, limestone, white limestone (marble chips), sulphur (granular, lumps).
Iron Ore
Galvanized Steel Wire - Electro Galvanized Wire Diameter: 0.7-4.1mm Tensile Strength: 350-550N Elongation: >15% Application: Construction, welding, Armoured cable,in wide fields.
Commodity: Iron Ore. Grade: 53.07% Country of Origin: Yemen. Port of Loading: Aden. Quantity: Minimum Quantity/Month 40,000 MT. Maximum per Shipment: 60,000 MT. Maximum: 100,000 MT Maximum per month Price:� CIF $99/MT, FOB $89/MT. Commission: Commission $2/MT.� Delivery: FOB Aden Port. Inspection: SGS Guaranty: 2% Performance Bond Payment: BG/DLC/SBLC.
Egyptian origin Iron Ore. Fob Price is $37 available photos and lab report for the product
