"*Power 2000-2300W; 220-240V 50/60Hz *Ceramic coating soleplate *Vertical steam 0.7g/time *Veriable steam 18g/min *Self-clean funtion *Spray function *Dry ironing *Temperature control *400ml water tank
*Power 1500W; 220-240V, 50/60Hz *Steam 25gr/min *Tank capacity 220ml *Extra-large head *Accessory: brush for thick fabrics *Automatic continuous steam supply through electrical pump *Can choose small or big steam *Power on/off button *Removable water tank
"*Power 900-1100W; 220-240V 50/60Hz *70ml water tank *Soleplate with ceramic coating *Burst of steam-vertical steaming *Dry ironing *Variable temperature settings *Detachable attachment with 2 brushes *Manual steam supply *Over-heat protection *Power indicator
"*Dry Ironing Function *Steam Function *Powerful burst steam Function *Folden Handle *Adjustable Teperature Control *Overheat Safety Protection *Indicate Light *230V 50Hz 1000W *Ceramic Coating Soleplate *Water Tank Capacity: 75ML *Steam Capacity:8~15g/mins *Burst Steam: 0.4~0.8g/shot
"*Power 1400-1600W; 220-240V,50/60HZ *Ready in 1 min. steam of 30g/min *Steam flow regulator *Vertical steam *Refresh and deodorize *Water tank 1.5L *Extra-large head *Autonomy 50 min. *Removable tank *Stand with double rod and hanger *Accessory: brush for thick fabrics and clamp
Iron ore with Fe Content 45-50% (on delivery terms of FOB Black Sea) Iron ore with Fe Content 55-59% (on delivery terms of FOB Black Sea) Test report of iron-containing raw materials No.1: Fe total - 46,21%, Fe2O3 - 65,2%, SiO2 - 31,98%, Al2O3 - 0,92%, P - 0,043%, FeO - 0,77%, CaO - 0,14%, MgO - 0,21%, TiO2 - 0,033%, MnO - 0,009%, S - 0,027%, Insoluble residue - 0,93%. No.2: Fe total - 50,56 %, Fe2O3 - 71,28%, SiO2 - 25,6%, Al2O3 - 1,05%, P - 0,039%, FeO - 0,90%, CaO - 0,17%, MgO - 0,14%, , TiO2 - 0,038%, MnO - 0,016%, S - 0,025%, Insoluble residue - 0,98%. No.3: Fe total - 55,49 %, Fe2O3 - 78,33%, SiO2 - 18,98%, Al2O3 - 0,80%, P - 0,045%, FeO - 0,90%, CaO - 0,13%, MgO - 0,21%, , TiO2 - 0,030%, MnO - 0,013%, S - 0,012%, Insoluble residue - 0,82%. No.4: Fe total - 59,84 %, Fe2O3 - 84,83%, SiO2 - 12,96%, Al2O3 - 0,65%, P - 0,055%, FeO - 0,64%, CaO - 0,11%, MgO - 0,17%, , TiO2 - 0,029%, MnO - 0,011%, S - 0,009%, Insoluble residue - 0,76%. Note: the chemical composition is given for reference and is not defective, with the exception of iron and is given for information.Iron ore from Ukraine with Fe content 59%. Fe total - 59,54%, Fe2O3 - 84,33%, SiO2 - 12,9%, Al2O3 - 1,01%, P - 0,012%, FeO - 0,71%, CaO - 0,14%, MgO - 0,22%, TiO2 - 0,035%, MnO - 0,025%, S - 0,01%, insoluble residue - 0,87%. Iron ore from Ukraine with Fe content 57%. Fe total - 57,3%, Fe2O3 - 79,9%, SiO2 - 15,0%, Al2O3 - 1,34%, P - 0,027%, FeO - 1,81%, CaO - 0,17%, MgO - 0,27%, TiO2 - 0,056%, MnO - 0,037%, S - 0,013%, insoluble residue - 1,81%. Note: the chemical composition is given for reference and is not defective, with the exception of iron and is given for information.
1. Sinter ore for a metallurgical plant. Specifications: Quantity : min 3 000 tons/month. Delivery conditions : FCA, DAP, FOB, EXW Fraction : 0-10 mm. Sinter ore with Fe Content 45-50% (on delivery terms of FOB Black Sea) Sinter ore with Fe Content 55-59% (on delivery terms of FOB Black Sea) Test report of iron-containing raw materials No.1: Fe total - 46,21%, Fe2O3 - 65,2%, SiO2 - 31,98%, Al2O3 - 0,92%, P - 0,043%, FeO - 0,77%, CaO - 0,14%, MgO - 0,21%, TiO2 - 0,033%, MnO - 0,009%, S - 0,027%, Insoluble residue - 0,93%. No.2: Fe total - 50,56 %, Fe2O3 - 71,28%, SiO2 - 25,6%, Al2O3 - 1,05%, P - 0,039%, FeO - 0,90%, CaO - 0,17%, MgO - 0,14%, , TiO2 - 0,038%, MnO - 0,016%, S - 0,025%, Insoluble residue - 0,98%. No.3: Fe total - 55,49 %, Fe2O3 - 78,33%, SiO2 - 18,98%, Al2O3 - 0,80%, P - 0,045%, FeO - 0,90%, CaO - 0,13%, MgO - 0,21%, , TiO2 - 0,030%, MnO - 0,013%, S - 0,012%, Insoluble residue - 0,82%. No.3: Fe total - 59,84 %, Fe2O3 - 84,83%, SiO2 - 12,96%, Al2O3 - 0,65%, P - 0,055%, FeO - 0,64%, CaO - 0,11%, MgO - 0,17%, , TiO2 - 0,029%, MnO - 0,011%, S - 0,009%, Insoluble residue - 0,76%. Note: the chemical composition is given for reference and is not defective, with the exception of iron and is given for information.
We have iron ore from several sites with several characteristics from 57% up to 80% depending on the customer's choice with quantities that can reach 5 million tons per year.
Commodity: iron ore. Price: up to 90$ Quantity:40,000 MT in 2 minings 20,000 mts each one Total capacity 40,000 mts Delivery: DAP Alashankou MOQ: 1'000 Mts Trial order: possible spot deal (MOQ 20.000 MTs) -Origin: Kazakhstan. Technical specification: -The Fe content must be at least 50%, if the content is less than the price recalculation will be as follows: - 1% = - 1% USD. -SiO2 content must be less than 15%, if more than 15% of the product is considered inappropriate and the price is negotiated separately. -The sulfur (S) content should be less than 0.65% and the phosphorus (P) content should be less than 0.04%. -Fraction size: 0 - 10 mm.
Production Iron Ore 300.000tun
Hello we can supply iron ore quality of your choice at a competitive price. Origin: Nigeria Quantity: 100000 MT per month Loading port : Lagos Nigeria Price: negotiable and competitive Grade and specification: Certificate and Analysis sheet will sent when LOI from buyer company is officially sent
I'm looking for a supplier of iron ore(Owner - mines). Product: Iron Ore (Fine type) Specifications: 62-64% Quantity: 3,000,000 tons per year. Purchase only - FOB ASWP. Target price 70\75$ per tons.
Iron is the main and most abundant element of the earth's core at around 88.8%. Our prices are extremely competitive as our high-quality Iron Ore is directly from mines in Africa, thereby more profit for your steel business. Price: (USD) Negotiable Iron content: 65% and above Payment: LC Quantity: 2,000,000 MT per month Size : Lumps or crushed Packaging: Direct load on to Bulk carrier Loading Time: Within 30 days upon receipt of LC confirmation For other details please approach us with end Buyers LOI and company profile.
Iron oxide (Fe3O4) synthetic magnetite / Triiron tetraoxide / Iron (II,III) Oxide Purity Fe3O4 98,5 % Paricle size: 20-30 nm Colour: black
Fe %75 O %25 Fe %95 O %5 Waste Iron powder oxide
Iron Oxide (micronized) Fe2O3>98% guaranteed (Average results Fe2O3>99%)
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.
1. copper cathode 2. copper wire scrap 3. sunflower oil 4. soybeans seeds 5. used rails 6. palm oil 7. urea 46% nitrogen granular 8. white corn 9. sisal fiber 10. cashew nuts 11. sesame seed 12. hardwood charcoal 13. a4 paper 14. icumsa 45 sugar 15. wood pellets 16. paper scrap 17. used engines 18. yamaha cardboard engines 19. pet bottle scrap 20. almond nuts 21. pistachio nuts 22. battery scrap 23. computer scrap 24. phone scrap 25. beef meat 26. goat meat 27. lamb meat 28. wet salted cow 29. cocoa 30. Arabica Coffee 31. Ubc Aluminum Scrap.
We can supply used rail R50 and R65 Composition: C - 0.54-0.82 %, SI -0.18-0.40%, MN - 0.60-1.05%, S - 0.04% maximum P - 0.035% maximum AS: 0.01% maximum of mass share 1. Technical terms: used rail R50-R65 2. Specifications and Chemical Composition: Used Rail: R50 (51.67KG/Meter, GOST 7173-55), Used Rail: R65 (64.72KG/Meter, GOST 8161-75). Size & Weight: Length: 12meter ~ 12.5meter Maximum or less according tobuyer's instruction; Expenses on seller Width: 5.5 inches ; Weight: 64.72Kg. No fishplates or steel pieces or bolts are attached to the used rails. All rails are clean and straight. No pitting. Only atmospheric rust. No heavy rust. It is mandatory that rails must be cut into length 1.5 meter (max.) before shipment.
Iron Oxide Concentrate Fines T.Fe 64-65% Fe2O3 92%> 60.000 WMT available in Iskenderun,Turkiye Turkiye Origin