Chromite Iron Ore Sand Cast Sand Foundry Sand Available Sizes for Chromite Iron Ore Sand Cast Sand Foundry Sand: AFS20-25 AFS25-30 AFS30-35 AFS35-40 AFS40-50 AFS40-45 AFS45-50 AFS50-55 AFS55-60 AFS60-65 Chemical Composition of Chromite Iron Ore Sand Cast Sand Foundry Sand: Cr2O3 46.0% FeO 26.5% Al2O3 15.5% SiO 1.0% MgO 10.0% CaO 0.30% Cr/Fe:1.55:1 Physical composition for Chromite Iron Ore Sand Cast Sand Foundry Sand: Appearance:Black Melting poin:2150C pH:7-9 The amount of the acid 2 ML Percent soil 0.1 Percent Moisture 0.1 The sintered 1600 Percentage of free acid present in the sand: 0 Packing: 1000Kgs Chromite Iron Ore Sand Cast Sand Foundry Sand/big bag Supply Ability: 8000Ts Chromite Iron Ore Sand Cast Sand Foundry Sand/month
We supply chrome ore. Price is negotiable. Specific terms are negotiable.
Chrome Concentrate 38-44% (38-40% / 40-42% / 42-44%) 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 - Chrome ROM/Concentrate, Iron Ore 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 favour of the Buyer. Mines based in Rustenburg, Mooinooi, Britz, Sun City and Gezina (South Africa)
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.
Vanadium(V) shares properties with its source material. Vanadium is a chemical element with symbol V and atomic number 23. It is a hard, silvery-grey, ductile, malleable transition metal. The elemental metal is rarely found in nature, but once isolated artificially, the formation of an oxide layer (passivation) somewhat stabilizes the free metal against further oxidation Vanadium is electrically conductive and thermally insulating, and itâ??s harder than most metals and steel. It has good resistance to erosion and it is stable against alkalis and sulfuric and hydrochloric acids. It is oxidized in air at about 933 K(660 °C, 1220 °F), although an oxide passivation layer forms even at room temperature. contact us for info