Description: UBC scrap refers to Used Beverage Can scrap, which consists of aluminum cans that have been discarded after use. These cans are typically collected for recycling purposes due to the valuable aluminum content they contain. UBC scrap is a crucial raw material in the aluminum recycling industry, contributing significantly to the production of new aluminum products. Specifications for UBC Scrap: Material Composition: UBC scrap consists primarily of used aluminum beverage cans. The cans should be free from any other materials such as plastic, glass, or organic matter. Size and Form: UBC scrap should be compacted or shredded aluminum cans. Individual cans should be flattened or crushed to facilitate handling and transportation. Purity and Contaminants: UBC scrap should have minimal contamination from non-aluminum materials. Contaminants such as food residue, labels, and coatings should be removed to the extent possible. Chemical Composition: Aluminum content should typically be high, with purity levels suitable for recycling into new aluminum products. Alloy specifications may vary depending on regional standards and recycling processes. Packaging and Transport: UBC scrap is usually packaged in bales, bundles, or loose depending on the recycling facility's requirements. Packaging should be suitable for transportation and storage, ensuring minimal damage and loss during handling. Environmental Considerations: UBC scrap should meet environmental regulations regarding recycling and disposal of used aluminum cans. Recycling processes should comply with local environmental standards to minimize environmental impact. Quality Standards: Quality standards for UBC scrap may include specifications on size consistency, cleanliness, and purity levels. Compliance with industry standards ensures the scrap is suitable for efficient recycling processes. Application: UBC scrap is used as a feedstock for aluminum smelting and recycling operations. It plays a crucial role in the circular economy by conserving natural resources and reducing energy consumption compared to primary aluminum production. Testing and Inspection: UBC scrap may undergo testing and inspection to verify compliance with specified standards. Quality control measures may include visual inspection, chemical analysis, and physical testing to ensure suitability for recycling. Market Considerations: Prices for UBC scrap may vary based on global aluminum market trends, demand-supply dynamics, and recycling efficiencies. Market participants include scrap dealers, recyclers, aluminum manufacturers, and industries utilizing recycled aluminum. By adhering to these specifications, UBC scrap can be effectively managed, processed, and recycled to contribute to sustainable resource management and environmental conservation efforts.
Description of Aluminium Scrap Aluminium scrap refers to discarded or leftover aluminium materials that can be recycled and repurposed. This scrap is a valuable resource in the recycling industry due to aluminium's properties, such as its lightweight nature, corrosion resistance, and ability to retain its properties through multiple recycling processes. Aluminium scrap comes from various sources including manufacturing leftovers, old aluminium products, building materials, and packaging. Recycling aluminium scrap is both environmentally and economically beneficial. It reduces the need for primary aluminium production, which is energy-intensive, and helps in conserving natural resources. Aluminium scrap is categorized based on its source, composition, and condition. The categories typically include clean aluminium scrap, painted or coated aluminium, aluminium alloys, and mixed aluminium scrap. Proper sorting and processing of aluminium scrap are crucial for ensuring the quality of the recycled material. Specification for Aluminium Scrap 1. General Requirements: Purity: Minimum 95% aluminium content. Form: Can be in various forms such as sheets, wires, cans, extrusions, castings, or mixed shapes. Condition: Free from excessive corrosion, oil, dirt, plastic, and other non-metallic materials. 2. Categories: Clean Aluminium Scrap: No attachments, coatings, or contaminants. Free from iron, brass, rubber, or other non-aluminium metals. Typically includes sheets, extrusions, and castings. Painted or Coated Aluminium Scrap: Includes aluminium with paint, lacquer, or other coatings. Must be free from significant non-aluminium metal attachments. Common sources include siding, gutters, and painted extrusions. Aluminium Alloys: Specific alloys identified by standard alloy numbers. Must be sorted and free from significant contamination by other alloys or metals. Mixed Aluminium Scrap: Combination of various forms of aluminium, may include some attachments. Requires additional sorting and processing to separate different grades. 3. Physical Properties: Thickness: Varies depending on the form, typically 0.2 mm to 5 mm for sheets. Size: Should be manageable for transportation and processing, often cut to specified dimensions. 4. Contaminants: Maximum Allowable: Iron: â?¤ 1% by weight. Plastic, Rubber, and Non-metallics: â?¤ 1% by weight. Other Non-aluminium Metals: â?¤ 2% by weight. Oil and Grease: â?¤ 0.5% by weight. 5. Packaging and Labeling: Bales or Bundles: Securely tied and compacted to prevent spillage and ensure efficient handling. Labeling: Clearly marked with the category of scrap, weight, and origin. 6. Inspection and Testing: Visual Inspection: To ensure compliance with specified categories and absence of prohibited contaminants. Chemical Analysis: Spectroscopic methods to determine aluminium content and presence of other elements. Weight Verification: Accurate measurement of scrap weight befor
Description of Copper Scrap Copper scrap refers to discarded copper materials that can be recycled and reused. This material is a significant source of copper for manufacturing new products, conserving natural resources, and reducing environmental impact. Copper scrap is available in various grades, each differing in purity and physical characteristics. Recycling copper scrap is energy-efficient compared to producing new copper from ore. The recycling process includes collecting, sorting, cleaning, and melting the scrap to produce reusable copper. Specifications for Copper Scrap #1 Copper (Bare Bright) Description: Clean, unalloyed, uncoated copper wire. Purity: 99.9% Cu. Physical Characteristics: Bright and shiny, no insulation or tarnish. Common Uses: Electrical and plumbing applications. #1 Copper (Clove) Description: Clean, unalloyed copper tubing and bus bars. Purity: 99.9% Cu. Physical Characteristics: Free of paint, solder, and any attachments. Common Uses: Electrical and plumbing, high-grade manufacturing. #2 Copper Description: Unalloyed copper with minimal contamination. Purity: 96-99% Cu. Physical Characteristics: May have some paint, solder, or coatings. Common Uses: Low-grade electrical applications, plumbing. #3 Copper (Light Copper) Description: Copper with significant contamination or alloying. Purity: 80-96% Cu. Physical Characteristics: Includes thin gauge sheets, some corrosion. Common Uses: Industrial applications, lower-grade products. #4 Copper (Insulated Wire) Description: Copper wire with insulation. Purity: Varies. Physical Characteristics: Copper content varies with insulation type. Common Uses: Electrical applications where insulation is required. Copper Turnings Description: Small pieces of copper from machining processes. Purity: 94-99% Cu. Physical Characteristics: Fine and shavings, may have oil or moisture. Common Uses: Remelting and refining. Copper Granules Description: Copper pieces from recycled electrical cables. Purity: 98-99% Cu. Physical Characteristics: Granulated, often from mechanical recycling. Common Uses: Electrical manufacturing, foundries. Additional Notes Recycling Process: Involves collection, sorting, cleaning, and melting. Quality control is crucial to maintain purity levels. Market Value: Varies based on grade, market demand, and purity. Higher purity grades generally fetch higher prices. Environmental Impact: Recycling copper scrap significantly reduces the need for mining, thus conserving natural resources and reducing carbon footprint. This detailed specification provides a clear understanding of the different grades of copper scrap, helping in the appropriate identification and use of each type.
Metal Mesh Top Ironing Board Board size: 90x30cm Folded size: 122x30x7cm Open size:110x30x80cm Material: Steel Surface Treatment: Powder Coating Thickness of felt: 8mm Total height: 80cm, adjustable height Packing: Each pc shink
Steel Rebar, Large Spare Part Old Steel Scrap, Railway Scrap, Old Machinery Scrap, Small Steel Scrap, Copper Scrap, Cast Iron Scrap, Shredded Steel Scrap, Steel Sheet Scrap, Steel Pipe Scrap, Steel Billet Scrap, Spare Part Scrap, Old Bicycle, Motorcycle Spare Part Scrap, Rebar Scrap, Old Screw Thread Steel/ Wire Rod, Nickel Chromium Stainless Steel Scrap, Chromium Stainless Steel Scrap, Alloy Steel Scrap.
Dear Sir/ Madam, We are pleased to offer you Hot Briquetted Iron Chips with Libyan origin. Below is the Chemical composition: CHEMICAL COMPOSITION: Iron (Fe) - 86% min Alumina (Al2O3) - 2.5 max Silica (SiO2) - 3.5 max Phosphorus (P) - 0.08 max Sulphur (S) - 0.08 max PHYSICAL SIZE (On Natural Basis) 6.5mm - 14mm: 70% min 14mm - 16mm: 20% max 16mm - 18mm: 10% max Analysis report is available upon request. Please let us know any interest. Thanks & Best Reagrds, Maria Lorena C. Sioson
Nutritional Differences Between White and Brown Sugar Given that white and brown sugar originate from the same crops â?? either the sugarcane or sugar beet plant â?? they are quite similar. In fact, most brown sugar is a mixture of white sugar and molasses, which is a type of sugar-derived syrup. Molasses is responsible for its darker color and slightly increases its nutritional value. The most notable nutritional difference between the two is that brown sugar has slightly higher calcium, iron, and potassium contents. That said, the amounts of these minerals in brown sugar are insignificant, so itâ??s not a good source of any vitamins or minerals (2 Trusted Source, 3 Trusted Source). Brown sugar also contains slightly fewer calories than white sugar, yet the difference is minimal. One teaspoon (4 grams) of brown sugar provides 15 calories, while the same amount of white sugar has 16.3 calories. Aside from these minor differences, they are nutritionally similar. Their main differences are their taste and color. AL Sadek Group of Companies supply you best quality White & Brown Sugar from Brazil & India Origin.
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.
Due to the high density of hematite relative to associated silicate gangue, hematite beneficiation usually involves a combination of beneficiation techniques. One method relies on passing the finely crushed ore over a slurry containing magnetite or other agent such as ferrosilicon which increases its density. When the density of the slurry is properly calibrated, the hematite will sink and the silicate mineral fragments will float and can be removed. We can supply good quantities of Iron ore from India,Middle East and CIS countries.
frame size opening size clear opening weight(kg) 25x25 20x20 15x15 3.5-15 30x30 24x24 20x20 4-20 40x40 33x33 28.5x28.5 6.5-30 45x45 37x37 33.5x33.5 9-45 50x50 42.5x42.5 38x38 10-50 60x60 50x50 46x46 16-120 70x70 60x60 54x54 23-120 80x80 65x65 58.5x58.5 35-150 90x90 77x77 67x67 50-150 1.Orders with buyers'design or sample are welcome. 2.Goods are packed in our practice,special requirements can be considered.
This is also one of our products from our Iron Ore and Pig Iron. Our quality control process ensures that it has a cascading effect in all the products at any stage of the production line. Our GI Coil is one of these hence it is highly resistant to weathering and metallic coating. Specification : Descriptions Thickness : 0.08 mm to 3.0 mm Width : 760 mm to 1335 mm Coating : 70 to 550 gsm Standards : IS 277, JIS G 3302, AS1397, EN 10326, EN 10327, ASTM A 653
Galvalume is one of our unique and specialized products that is best adapted for heating and ventilated consumptions. This is an enhanced galvanized iron product that has better corrosion resistance and longer life. Specification : Descriptions Thickness : 0.18 to 1.20 mm (BMT) Width : 760 to 1350 mm Standards : JIS G 3321, AS1397, EN 10215, EN 10215, ASTM A792 / A792M Coating : AZM 150 to AZM 210
Specifications Fe. : 52%+ SiO2. : 7% max Al. : 6% max Moisture. : 4% max Quantity. : 50000 MTons Loading port : MPT Goa India
Recyclers offerrous scrap like HMS 1&2(80:20), cast iron scrap, car body bundles, non ferrous scrap like aluminium, brass, copper, stainless steel, plastic scrap, wood pellets 6mm & 8mm.
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
Gremlog Trading DMCC emerges as a pioneering force in the recycling landscape, offering recycled silica sand in sizes ranging from 0-1mm to 1-4mm. Leveraging the inherent advantages of repurposed silica-based spent foundry sands, Gremlog Trading DMCC champions sustainable practices within the metal casting industry. By providing recycled silica sand, Gremlog Trading DMCC contributes to energy conservation, reduces reliance on virgin materials, and delivers cost-effective solutions for both producers and end users. Gremlog Trading DMCC's recycled silica sand stands as a versatile resource, poised to revolutionize not only traditional applications but also industry-specific needs. With its origins in spent foundry sands from the metal casting industry, this recycled silica sand finds renewed purpose as a foundational material for roads, an essential ingredient in manufactured soil, and a component of soil less media like potting soil. Moreover, its inherent properties make it ideal for reuse within the metal industry, contributing to the circular economy by minimizing waste and maximizing resource efficiency. Gremlog Trading DMCC's commitment to innovation and sustainability ensures that their recycled silica sand remains a cornerstone of eco-conscious practices across various sectors, paving the way for a greener, more efficient future.
Gremlog Trading DMCC emerges as a pioneering force in the recycling landscape, offering recycled silica sand in sizes ranging from 0-1mm to 1-4mm. Leveraging the inherent advantages of repurposed silica-based spent foundry sands, Gremlog Trading DMCC champions sustainable practices within the metal casting industry. By providing recycled silica sand, Gremlog Trading DMCC contributes to energy conservation, reduces reliance on virgin materials, and delivers cost-effective solutions for both producers and end users.Gremlog Trading DMCC's recycled silica sand stands as a versatile resource, poised to revolutionize not only traditional applications but also industry-specific needs. With its origins in spent foundry sands from the metal casting industry, this recycled silica sand finds renewed purpose as a foundational material for roads, an essential ingredient in manufactured soil, and a component of soilless media like potting soil. Moreover, its inherent properties make it ideal for reuse within the metal industry, contributing to the circular economy by minimizing waste and maximizing resource efficiency. Gremlog Trading DMCC's commitment to innovation and sustainability ensures that their recycled silica sand remains a cornerstone of eco-conscious practices across various sectors, paving the way for a greener, more efficient future.
Gremlog Trading DMCC emerges as a pioneering force in the recycling landscape, offering recycled silica sand in sizes ranging from 0-1mm to 1-4mm. Leveraging the inherent advantages of repurposed silica-based spent foundry sands, Gremlog Trading DMCC champions sustainable practices within the metal casting industry. By providing recycled silica sand, Gremlog Trading DMCC contributes to energy conservation, reduces reliance on virgin materials, and delivers cost-effective solutions for both producers and end users. Gremlog Trading DMCC's recycled silica sand stands as a versatile resource, poised to revolutionize not only traditional applications but also industry-specific needs. With its origins in spent foundry sands from the metal casting industry, this recycled silica sand finds renewed purpose as a foundational material for roads, an essential ingredient in manufactured soil, and a component of soil less media like potting soil. Moreover, its inherent properties make it ideal for reuse within the metal industry, contributing to the circular economy by minimizing waste and maximizing resource efficiency. Gremlog Trading DMCC's commitment to innovation and sustainability ensures that their recycled silica sand remains a cornerstone of eco-conscious practices across various sectors, paving the way for a greener, more efficient future.
Gremlog Trading DMCC emerges as a pioneering force in the recycling landscape, offering recycled silica sand in sizes ranging from 0-1mm to 1-4mm. Leveraging the inherent advantages of repurposed silica-based spent foundry sands, Gremlog Trading DMCC champions sustainable practices within the metal casting industry. By providing recycled silica sand, Gremlog Trading DMCC contributes to energy conservation, reduces reliance on virgin materials, and delivers cost-effective solutions for both producers and end users. Gremlog Trading DMCC's recycled silica sand stands as a versatile resource, poised to revolutionize not only traditional applications but also industry-specific needs. With its origins in spent foundry sands from the metal casting industry, this recycled silica sand finds renewed purpose as a foundational material for roads, an essential ingredient in manufactured soil, and a component of soil less media like potting soil. Moreover, its inherent properties make it ideal for reuse within the metal industry, contributing to the circular economy by minimizing waste and maximizing resource efficiency. Gremlog Trading DMCC's commitment to innovation and sustainability ensures that their recycled silica sand remains a cornerstone of eco-conscious practices across various sectors, paving the way for a greener, more efficient future.
Gremlog Trading DMCC emerges as a pioneering force in the recycling landscape, offering recycled silica sand in sizes ranging from 0-1mm to 1-4mm. Leveraging the inherent advantages of repurposed silica-based spent foundry sands, Gremlog Trading DMCC champions sustainable practices within the metal casting industry. By providing recycled silica sand, Gremlog Trading DMCC contributes to energy conservation, reduces reliance on virgin materials, and delivers cost-effective solutions for both producers and end users. Gremlog Trading DMCC's recycled silica sand stands as a versatile resource, poised to revolutionize not only traditional applications but also industry-specific needs. With its origins in spent foundry sands from the metal casting industry, this recycled silica sand finds renewed purpose as a foundational material for roads, an essential ingredient in manufactured soil, and a component of soil less media like potting soil. Moreover, its inherent properties make it ideal for reuse within the metal industry, contributing to the circular economy by minimizing waste and maximizing resource efficiency. Gremlog Trading DMCC's commitment to innovation and sustainability ensures that their recycled silica sand remains a cornerstone of eco-conscious practices across various sectors, paving the way for a greener, more efficient future.
