Aluminum Wire Scrap 99% We offer quality Aluminum Alloy Wheel Scrap at very cheap price which will suite our customers all around the world. Aluminum Alloy Wheel Scrap Grade: Aluminium Application: Scrap Alloy or not: Alloy Features: Free from Nuts, Steel plate, paint Material : 14 inch/ 15inch / 17inch / 18inch / Appearance: Silvery White Al content: >98% CONTACT US FOR MORE DETAILS AND QUOTATIONS.
Bulk Aluminum UBC Scrap FOB $650/MT MOQ 25MT Place of Origin: Thailand Brand Name: OEM Model Number: Aluminum Type: Aluminum Can Weight: 100kg/bale Al Content (%): 99.9 Product name: Aluminium Scrap Specification: Density: 2.702g/cm�³ Melting point: 660.37â?? Boiling point: 2467.0â?? Color: silver white Application: 1. Mainly used for melting ingot. 2. Used for industries such as automobile, pinning and weaving, electron broadly and so on. 3. Used to make cars, trains, subways, ships, airplanes, rockets, spaceships and other land and air vehicles to reduce the weight of the load.
1, the use of aluminum in the construction industry, because of the stability of aluminum in the air and the excellent appearance after anodizing and is widely used. 2, in the aviation and national defense industry also a large number of aluminum alloy materials. 3. Aluminum cable reinforced by high strength steel wire is commonly used in power transmission. 4. In addition, aluminum and aluminum alloys are widely used in automobile manufacturing, container transportation, daily necessities, household appliances, mechanical equipment and other fields. Silvery white light metal. It's malleable. Commodities are often made in rod, sheet, foil, powder, ribbon and filament. An oxide film can be formed in moist air to prevent metal corrosion. The aluminum powder and aluminum foil heat up in the air and burn violently, and emit a blinding white flame. Soluble in dilute sulfuric acid, nitric acid, hydrochloric acid, sodium hydroxide and potassium hydroxide solutions, insoluble in water. The relative density is 2.70. Melting point is 660. The boiling point of 2327 . Aluminum is the most abundant metal element in the earth's crust, ranking third only to oxygen and silicon. The development of three important industries, aviation, construction and automobile, requires that the material characteristics have the unique properties of aluminum and its alloy, which greatly benefits the production and application of this new metal aluminum. It is widely used.
Silvery white light metal. It's malleable. Commodities are often made in rod, sheet, foil, powder, ribbon and filament. An oxide film can be formed in moist air to prevent metal corrosion. The aluminum powder and aluminum foil heat up in the air and burn violently, and emit a blinding white flame. Soluble in dilute sulfuric acid, nitric acid, hydrochloric acid, sodium hydroxide and potassium hydroxide solutions, insoluble in water. The relative density is 2.70. Melting point is 660 â??. The boiling point of 2327 â??. Aluminum is the most abundant metal element in the earth's crust, ranking third only to oxygen and silicon. The development of three important industries, aviation, construction and automobile, requires that the material characteristics have the unique properties of aluminum and its alloy, which greatly benefits the production and application of this new metal aluminum. It is widely used.
Aluminum Specification: Aluminum is a lightweight, silvery-white, and ductile metal known for its high corrosion resistance, excellent thermal and electrical conductivity, and versatility in various applications. It is commonly used in industries such as aerospace, construction, automotive, and packaging. Physical Properties: Density: Approximately 2.70 g/cm�³ Melting Point: 660.3�°C (1220.5�°F) Boiling Point: 2519�°C (4566�°F) Mechanical Properties: Tensile Strength: Varies with alloy, typically ranging from 70 to 700 MPa Yield Strength: Varies with alloy, typically ranging from 30 to 500 MPa Elongation at Break: Varies with alloy, typically from 1% to 30% Hardness: Varies with alloy, typically from 20 to 120 HB Chemical Composition: Pure aluminum is composed of 99.0% to 99.9% aluminum. Common alloying elements include copper, manganese, silicon, magnesium, and zinc. Thermal Properties: Thermal Conductivity: 205 W/m�·K (at 20�°C) Coefficient of Thermal Expansion: 23.1 x 10â?»â?¶ /K Electrical Properties: Electrical Conductivity: 37.7 x 10â?¶ S/m (at 20�°C) Corrosion Resistance: Excellent resistance to atmospheric corrosion due to the formation of a protective oxide layer. Good resistance to corrosion in marine environments and many industrial chemicals. Formability and Machinability: Highly ductile and can be easily formed into various shapes through processes like rolling, extruding, and drawing. Machinability varies with the alloy, with some aluminum alloys offering better machinability than others. Common Applications: Aerospace: Airplane fuselages, wings, and other structural components. Automotive: Engine components, wheels, and body panels. Construction: Window frames, roofing, and structural components. Packaging: Beverage cans, foil, and containers. Electrical: Conductors, wiring, and electronic components. Surface Treatment: Aluminum can be anodized, painted, or coated to enhance its surface properties and appearance. Recyclability: Aluminum is highly recyclable and retains its properties after recycling, making it a sustainable material choice. Standards and Grades: Common standards include ASTM B209 for aluminum sheet and plate, ASTM B221 for aluminum extruded bars, rods, wire, profiles, and tubes. Grades and tempers vary depending on the specific application and alloy composition.
Aluminum Specification: Aluminum is a lightweight, silvery-white, and ductile metal known for its high corrosion resistance, excellent thermal and electrical conductivity, and versatility in various applications. It is commonly used in industries such as aerospace, construction, automotive, and packaging. Physical Properties: Density: Approximately 2.70 g/cm�³ Melting Point: 660.3�°C (1220.5�°F) Boiling Point: 2519�°C (4566�°F) Mechanical Properties: Tensile Strength: Varies with alloy, typically ranging from 70 to 700 MPa Yield Strength: Varies with alloy, typically ranging from 30 to 500 MPa Elongation at Break: Varies with alloy, typically from 1% to 30% Hardness: Varies with alloy, typically from 20 to 120 HB Chemical Composition: Pure aluminum is composed of 99.0% to 99.9% aluminum. Common alloying elements include copper, manganese, silicon, magnesium, and zinc. Thermal Properties: Thermal Conductivity: 205 W/m�·K (at 20�°C) Coefficient of Thermal Expansion: 23.1 x 10â?»â?¶ /K Electrical Properties: Electrical Conductivity: 37.7 x 10â?¶ S/m (at 20�°C) Corrosion Resistance: Excellent resistance to atmospheric corrosion due to the formation of a protective oxide layer. Good resistance to corrosion in marine environments and many industrial chemicals. Formability and Machinability: Highly ductile and can be easily formed into various shapes through processes like rolling, extruding, and drawing. Machinability varies with the alloy, with some aluminum alloys offering better machinability than others. Common Applications: Aerospace: Airplane fuselages, wings, and other structural components. Automotive: Engine components, wheels, and body panels. Construction: Window frames, roofing, and structural components. Packaging: Beverage cans, foil, and containers. Electrical: Conductors, wiring, and electronic components. Surface Treatment: Aluminum can be anodized, painted, or coated to enhance its surface properties and appearance. Recyclability: Aluminum is highly recyclable and retains its properties after recycling, making it a sustainable material choice. Standards and Grades: Common standards include ASTM B209 for aluminum sheet and plate, ASTM B221 for aluminum extruded bars, rods, wire, profiles, and tubes. Grades and tempers vary depending on the specific application and alloy composition.
Specification for Aluminum Scrap 1. Scope This specification defines the quality and requirements for aluminum scrap intended for recycling and manufacturing. It ensures consistency, quality, and suitability for various applications. 2. Material Requirements 2.1. Composition Aluminum Content: Minimum 90% by weight. Contaminants: Maximum 2% by weight of non-aluminum metals (e.g., steel, copper). Maximum 1% by weight of non-metallic materials (e.g., plastic, rubber). Moisture content should not exceed 2% by weight. 2.2. Form and Condition Types: Can include profiles, sheets, turnings, wire, and castings. Size: Must be manageable for handling and processing, typically not exceeding 1 meter in any dimension. Cleanliness: Free from excessive oil, grease, and other foreign substances. 3. Packaging and Labeling Packaging: Scrap should be securely packaged or bundled to prevent scattering and contamination during transport. Packaging materials should not contaminate the scrap. Labeling: Each package should be clearly labeled with: Supplier name and address. Net weight. Scrap grade and type. 4. Inspection and Testing Visual Inspection: Performed to check for visible contaminants, appropriate size, and cleanliness. Chemical Analysis: Periodic testing to verify aluminum content and contaminant levels. Moisture Test: Conducted to ensure moisture content compliance. 5. Documentation Certificate of Analysis (CoA): Provided with each shipment, detailing the chemical composition and confirming compliance with this specification. Bill of Lading: Including details of the shipment, weight, and scrap grade. 6. Compliance and Rejection Compliance: All supplied scrap must meet the requirements outlined in this specification. Rejection: Material not meeting these requirements will be subject to rejection and return at the supplier's expense. 7. Safety and Handling Handling: Appropriate safety measures should be taken to prevent injury or contamination during handling and transportation. Personal Protective Equipment (PPE): Workers must use suitable PPE, including gloves and eye protection. 8. Environmental and Regulatory Considerations Compliance: Must comply with all relevant local, national, and international regulations regarding waste and recycling materials. Environmental Impact: Suppliers are encouraged to follow environmentally friendly practices in the collection and processing of aluminum scrap.
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.