Petroleum products like bitumen, fuel oil, rpo, diesel, gasoline, naoh, paraffin wax, base oil, chemicals, mea, koh, pvc, benzene, potassium sulfate, urea, dap, potassium chloride, xylene, propylene, ethylene, different types of catalysts, chemical fertilizers, npk, industrial raw material, sulfur, gypsum, cement, phosphate rock, silicon carbide, alumina.Trade
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Sikasil�®-117 Sanitary is designed for sanitary or other sealing applications in wet rooms where mildew resist- ance is required. Sikasil�®-117 Sanitary is designed to seal glass, glazed surfaces, ceramic and porcelain and cotaed metal substrates. Low shrinkage Good UV and weathering resistance Mildew and fungus resistant
200% More Silicone Than The Leading Competitor Lubricates, Seals and Protects Great for preventing sticking and freezing of moving mechanisms Stops squeaky door hinges, drawers, gears and more Protects plastics, rubber and leather from the elements
Ferro vanadium, caustic soda, scraps, crude oil, hdpe granules, coal, iron ore, copper ore, shredded tyres, flourspar, ferro silicone, ferro manganese, ferro nickel, ferro chrome, ferro titanium, ferro niobium, ferro molybedum, ferro vanadium, ferro born, antracite coke, gas coke, titanuim spoonge, hardwood charcoal, vanadium nitride.
Ferrosilicon� is an alloy of iron and silicon that is made by reducing silica in the presence of iron, and which plays an essential role in steelmaking. Silicon iron, also known as ferrosilicon, is a ferroalloy composed of iron and silicon, with a silicon content ranging from 15% to 90%. It is commonly used as a deoxidizer in steelmaking and as a reducing agent in ferroalloy production and the chemical industry. In the steelmaking industry, approximately 3-5 kg of 75% ferrosilicon is consumed to produce one ton of steel. Ferrosilicon can also be used as an alloying element additive, which is widely used in low alloy structural steel, spring steel, bearing steel, heat-resistant steel, and electrical silicon steel. Ferrosilicon is also used in the production of cast iron, as it helps to control the initial content of silicon in the melt, which is important for the microstructure and properties of the final product. Ferrosilicon cast magnesium is an alloy that contains magnesium and is used as a nodulizer in the production of ductile iron. It has a big mechanical strength, and the effect of deoxidization and desulfurization is strong. Modifiers are added to molten metal to change its properties, and ferrosilicon is one of the most commonly used modifiers in the production of cast iron. The material forming the base Ferrosilicon analysis ferrosilico cast magnesium and modifiers. The role of Ferrosilicon in Steelmaking: In steelmaking, Ferrosilicon is used for:
Silicon .
Quicklime (or calcium oxide or burnt lime) is obtained by calcining pure limestone at temperature above 9000C. This highly reactive product is essential to many industrial processes. Calcium oxide (CaO), commonly known as quicklime or burnt lime, is a widely used chemical compound. It is a white, caustic, alkaline, crystalline solid at room temperature. The broadly used term lime connotes calcium-containing inorganic materials, in which carbonates, oxides and hydroxides of calcium, silicon, magnesium, aluminium, and iron predominate. Application: Steel Making, FGD, Construction, Masonry & Mortars, Water Treatment, Chemical Processes, Mining Industry, sugar industry, Paper, Pulp and PCC, Remediation of Sludges and Wastes and Glass Manufacturing. Packing: 1000kg Jumbo bag. Item Specification CaO: 92.5% ± 2 Loss on Ignition at 1000 °C: 4% ±2 Grain Size: 10- 60 mm Reactivity: High
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%
In its mineral form Bauxite, Aluminium is the most abundant metal in the earth's crust. Bauxite contains one of a variety of hydrated aluminium oxides (gibbsite, boehmite or diaspore), which are often expressed as Al2O3xH2O but are more commonly regarded as impure Al2O3. Bauxite is claylike and earthy, and ranges in colour from white to deep brown or red according to the nature and quantity of its components. The major impurities in Bauxite are iron oxides (goethite & hematite), silicon dioxide, the clay mineral kaolinite as well as small amounts of anatase (TiO2). Consequently, its composition varies considerably with alumina constituting from about 50% to about 70%. Aluminium content can be accurately and precisely determined over a broad analytical range simultaneously along with Si, Fe, Mn, Ti, Zr and up to 20+ other elements. Item Specification Color: Brown, yellow / light red Granularity: 0-1/1-3/3-5/5-8 mm, 200/325 mesh Application: Aluminium/Precision Casting/Refractory Density: 4.3 g/cm3 Hardness: 1-3 Fe2O3 Content: 3.0% Max CaO Content: 0.2 Max Package: 25 kg/bag Payment terms: T/T L/C
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Specification for Aluminum Ingot A7 Product Name Aluminum Ingot A7 Material Highpurity aluminum ingots primarily composed of Al997 or higher purity Alloy Grade A7 typically used in primary aluminum production Form Rectangular or trapezoidal ingots Dimensions Length 600mm 20mm Width 80mm 10mm Height 50mm 10mm Weight Approximately 20 kg per ingot Chemical Composition Aluminum 997 min Silicon 010 max Iron 016 max Copper 001 max Zinc 003 max Manganese 003 max Magnesium 003 max Chromium 001 max Titanium 002 max Packaging Ingots stacked and secured on wooden or metal pallets Each ingot to be individually wrapped or bundled to prevent oxidation Packaging suitable for ocean freight and longterm storage Surface Finish Smooth and free from visible defects or contamination Applications Primary material for aluminum casting and alloy production Used in automotive aerospace and construction industries Origin Produced from highquality alumina through electrolytic reduction and casting processes Certifications Certificate of analysis confirming chemical composition and purity Compliance with international standards eg ASTM B233B233M17 Note This specification provides a general outline for Aluminum Ingot A7 Specific requirements may vary based on supplier agreements regional standards and customer specifications
Specification for Scrap Aluminum 6063 Product Name: Scrap Aluminum 6063 Material: Aluminum alloy scraps primarily consisting of AA6063 grade Condition: Clean, uncoated, uncontaminated with other materials Form: Extrusions, profiles, or sheets Should be free of any attachments such as screws, iron, plastic, or other metals Chemical Composition: Aluminum: 98.5% min Magnesium: 0.45% - 0.9% Silicon: 0.2% - 0.6% Iron: 0.35% max Copper: 0.1% max Manganese: 0.1% max Zinc: 0.1% max Titanium: 0.1% max Packaging: Packed in bundles or loose as per agreement Clearly labeled with product details including alloy type and quantity Suitable packaging for transportation and storage Size: Pieces should be of a size convenient for handling and melting Typically in the form of long bars, rods, or sheets Origin: Derived from industrial or consumer aluminum products, processed for recycling purposes Applications: Used as raw material for remelting and casting purposes Suitable for manufacturing aluminum alloys, extrusions, and various industrial products Certifications: Certificate of analysis confirming alloy composition and purity Compliance with international standards (e.g., ISRI specifications) Note: This specification provides a general outline for Scrap Aluminum 6063. Specific requirements may vary based on supplier agreements, regional standards, and customer needs.