Nigeria is one of the Africa countries with abundant lead natural resources deposits and minerals. Lead is a metallic element primarily produced from the mineral, galena. Most mineral ore contains lead with only about 3 of these minerals commercially viable, they are galena, cerussite, and anglesite and are mostly found in conjunction with other metals like zinc and silver. We have the capacity to supply more than 1000MT monthly.
Lithium ore is an element valuable for the production of glass, aluminum products, and batteries. It is mined from ores of petalite (LiAl(Si2O5), lepidolite K(Li,Al) (Al,Si,Rb)4O10(F,OH), and spodumene LiAl(SiO3)2 and also subsurface brines. Nigeria is one of the world's largest producers of lithium. With our large solid mineral storage facility in Lagos Nigeria we can supply 500-1000 metric ton of this product per month to China.
Cashew, sesame seeds, soybeans, shea butter, bitter kola, ginger, dried hibiscus flower, charcoal, quartz, pegmatite and other minerals.
Fluorite ore (CaF2) is widely used in industry and beyond. This chemical compound is mostly fit for the production of hydrogen fluoride, which is used for example in glass etching and yeast production. It is also a valuable raw material used in the production filters and optical glasses, anti-reflection coatings, cosmetics, (calcium) nitrogenous fertilisers used in agriculture, dental preparations and varnishes. Fluorite is also a valuable material for the steel manufacturing industries. With our double storage warehouses in Port Harcourt and Lagos we are positioned to supply 1000-3000MT of this product monthly.
Copper ore and cobalt like coltan, tin, wolfram, ferro titanium, bitumen, d2 gas, manganese ore, bauxite, bonny light crude oil bauxite ore,clinker , aluminium ingots, brazil sugar and coffee, lead ingots and zinc ingots iron ore , steel billets.
Lithium ore.
White cassava starch powder, high grade charcoal for bbq, shisha and restaurant grades. charcoal briquettes. industrial charcoal. wood pellets, pine wood powder, wood pellets, wood briquettes, wood chips, wood sawdust, wood shavings, wood flakes. dried hibiscus from nigeria 99% sortex sesame seed soy beans, soya beans raw cashew nuts rcn cameroon pepper black pepper chilli pepper hibiscus shifting tumeric cassiatora cassia tora gum arabic gum olibanum frankincense mica, mica powder, mica flakes, mica blocks, mica sheets, mica scraps quartz, quartz lumps, quartz boulders, mica quartz (quartz with mica contamination), quartz crystals zinc ore /lead ore green and brown copper talcum iron bauxite quartzite white quartz zinc and lead ore aluminium bauxite monozite zycon sand columbite tin ore unprocess phosphate rocks titanium oxide.
Solid minerals, agro commodities and used reusable or recyclables materials like metals and plastics..Trading, buying agent
Ilmenite is the primary ore of titanium, a metal needed to make a variety of high-performance alloys. Most of the ilmenite mined worldwide is used to manufacture titanium dioxide an important pigment, whiting, and polishing abrasive. We are instrumental in exporting and supplying of premium quality Ilmenite Sand. It is basically a black heavy ore of iron and titanium. We can supply 3000-5000mt of Ilmenite sand per month to any destination.
Fresh ginger, raw cashew nuts, sesame seeds, dried ginger, shea nuts, tiger nuts, peanuts, sorghum seeds, hibiscus flower, shea butter, cocoa beans, zinc ore, lithium ore, mica flakes or scraps, fluoride ore, lepidolite, coal, lead ore, iron ore, fluorite ore, precious stones, spodumene, gum arabic, limestone, ilmenite, hardwood & bbq charcoal, and fluorspar..
Hematite is an iron ore that contains iron in the form of Fe 2 O 3. It is a significant source of iron extraction. Hematite is a mineral that is paramagnetic. As a result, it can be drawn to an external magnetic field. It is an iron oxide with a chemical composition of Fe 2 O 3. It is a common rock-forming mineral found in sedimentary, metamorphic, and igneous rocks at locations throughout the world. Hematite is the most important ore of iron. Hematite is a heavy and usually hard oxide mineral that constitutes the most important iron ore123. It has a chemical formula Fe2O3, indicating that it consists of two iron (Fe) atoms bonded to three oxygen (O) atoms4. Hematite has a high iron content and is one of the most abundant iron ores found on Earth43. It is often found in sedimentary, metamorphic, and igneous rocks4. Hematite is mined in some of the largest mines in the world3. Hematite ore has naturally high iron content suitable for steelmaking5. Features Of Iron Ore: Iron ore is the main raw material that is used in the manufacturing of steel. 97% of the mined iron ore goes in the steel production. Nigeria has rich deposits of Iron Ore and is among the top 8 exporter of iron ore in the world. Please find below our IRON ORE SPECIFICATIONS 1. HAEMATITE IRON ORE SITE 1 - Reserve Estimate : 26,553,534.835 Metric Tons - Iron Content: 70% - S.G: 4.05 2. HAEMATITE IRON ORE SITE 2 - Reserve Estimate : 29,433,844.835 Metric Tons - Iron Content: 72% - S.G: 4.2 3. MAGNETITE IRON ORE Reserve Estimate : 243,838.14 Metric Tonnes - Iron Content: 60.8% - S.G: 5.0 Metal analysis of 6.885 Iron Ore QUALITY TEST: Analysis was done using AAS & XRF-ANALYZER and the ELEMENTAL Compositions of the sample(s) are reported below: CERTIFICATE OF ANALYSIS SAMPLE ID IRON ORE SPECIFIC GRAVITY (SG) PARAMETERS Weight % 5.00 TiO2 0.746 Fe2O3 60.885 As2O4
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 â??Iron Concentrate Particlesâ?? will summarize the progress achieved in the last five years.
Our iron ore pellets and fines are made from magnetite and have high iron ore content â?? 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 customersâ?? 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 customersâ?? ironmaking processes.
Antimony is nonmalleable, hard and brittle and can be crushed to a powder. Compared with metals, antimony is a poor conductor of electricity and heat. Antimony is the 63rd-most abundant element in Earth's crust. It is less abundant than tin, arsenic and the rare earths, but more so than bismuth, mercury and silver. Antimony tends to concentrate in sulfide ores along with copper, lead and silver. It occurs sparingly as a free element, but when it does it is usually in association with arsenic, bismuth or silver. The principal ore minerals of antimony are stibnite and jamesonite, but it can also be a byproduct of certain other minerals. Eighty percent of the world's antimony is produced from two types of deposits carbonate replacement deposits and gold-antimony epithermal deposits. The majority of antimony is consumed in the production of antimony trioxide (ATO), a compound used in flame-retardant materials. Combined with halogenated particles, ATO suppresses, reduces or delays the spread of flame. It is incorporated into adhesives, paints, plastics, rubber insulation, decorative foams, building materials and textiles, including upholstered furniture.
Rock salt, quartz, silica sand, gypsum, talc, limestone.