Feature Details Purity Level 99.7% Manufacturing Method Molten salt electrolysis Industry Applications Automotive, construction, electrical The P1020 primary aluminum ingot is produced with a minimum purity of 99.7% aluminum. It is commonly used for remelting and is manufactured through molten salt electrolysis, making it suitable for various industrial applications. 1. Product Overview Grade: P1020 Purity: Minimum 99.7% aluminum Appearance: Bright, silvery finish 2. Applications P1020 ingots are utilized in: Remelting processes Foundry applications Manufacturing of high-quality aluminum products 3. Production Process Manufacturing Method: The ingots are produced using the molten salt electrolysis method, involving alumina and cryolite, which meet national standards (GB/T1196-2002) [1]. 4. Key Benefits High purity ensures excellent performance in various applications. Versatile usage across different industries, particularly in automotive and construction.
Feature Details Purity Level 99.7% Manufacturing Method Molten salt electrolysis Industry Applications Automotive, construction, electrical The P1020 primary aluminum ingot is produced with a minimum purity of 99.7% aluminum. It is commonly used for remelting and is manufactured through molten salt electrolysis, making it suitable for various industrial applications. 1. Product Overview Grade: P1020 Purity: Minimum 99.7% aluminum Appearance: Bright, silvery finish 2.� Applications P1020 ingots are utilized in: Remelting processes Foundry applications Manufacturing of high-quality aluminum products 3. Production Process Manufacturing Method: The ingots are produced using the molten salt electrolysis method, involving alumina and cryolite, which meet national standards (GB/T1196-2002) [1]. 4. Key Benefits High purity ensures excellent performance in various applications. Versatile usage across different industries, particularly in automotive and construction.
C 0.54 -0.82 Si 0.18 - 0.40 Mn 0.60 - 1.05 S 0.04 max P 0.035 max As 0.01 max of Mass share Norms R-50 GOST-7173-75 and R-65 GOST-8165-75 R50 (51.67 KG/M) GOST 7173-75 R65 (64.72 KG/M) GOST 8165-75 In ferrous we mainly deal in HMS1 & 2 Material Specification Heavy Melting Scrap (HMS 1& 2) ,80% HMS 1 & 20 % HMS 2 confirming to ISRI 200-206 HMS 1 ISRI Code 200: heavy melting steel. Wrought iron and/or Steel scrap inch or steel scrap inch and over in thickness. Individual pieces not over 60 x 24 inches HMS 1 ISRI Code 201: heavy melting steel 3 feet x 18 inches. Wrought iron or steel scrap HMS 1 ISRI Code 202: heavy melting steel 5 feet x 18 inches. Wrought iron or steel scrap HMS 2 ISRI Code 203: heavy melting steel. Wrought iron or Steel scrap, Black and Galvanized. 1/8 inch and over in thickness, charging box size to include material not suitable as no.1 heavy melting steel. HMS 2 ISRI Code 204: same as ISRI 203 but max size 36-18 inches. HMS 2 ISRI Code 205: same as ISRI 204 but free of sheet iron or thin-gauged material. HMS 2 ISRI Code 206: same as ISRI 204, but max size 60 x 18 inches
Heavy metal scrap consists of recyclable metals such as lead, copper, zinc, and nickel, which are collected from various sources including industrial waste, discarded machinery, and construction materials. These metals are critical for reuse in industries like automotive, construction, and electronics. Product Overview: Heavy metal scrap refers to used or discarded metallic materials, particularly those with high atomic weights or densities, such as lead, copper, zinc, and nickel. These metals are highly recyclable and play a vital role in reducing the need for new raw material extraction. Features: High Density: Heavy metals such as lead, copper, and zinc have significant weight and strength properties, making them suitable for various heavy-duty industrial applications. Recyclability: Heavy metal scrap is widely reused in industries to create new products, minimizing environmental impact by conserving natural resources. Applications: Heavy metal scrap is extensively used in industries such as automotive, aerospace, construction, and electronics. It can be melted and reshaped into new parts, reducing production costs and energy consumption compared to new metal manufacturing. Environmental Impact: Recycling heavy metals significantly reduces the environmental footprint by minimizing mining activities and reducing hazardous waste from industrial processes.
Cathode copper refers to high-purity copper produced through the electrolytic refining process. Cathode copper is characterized by its high electrical conductivity, excellent thermal conductivity, and good formability. Standard: ASTM, GB, DIN, BS, EN, JIS Product name Copper Cathode Plates / Copper Ingot / Copper Cathode Cu 99.99% Standard GB/T Chemical Composition Copper (Cu) Quality High-Quality Purity 99.97% - 99.99% Dimension 914mm x 914 x 12mm (appr.) (+/-1%) (LME Standard) Export to America, Russia, Australia, Brazil, Canada, Peru, Iran, India, United Kingdom, Arab etc. 1. Weight of each sheet: 125kgs (+/- 1%) 2. Net weight of each pallet: 2mts (+/- 1%) 3. Min. weight in each container: 20 mts approx. 4. Gross weight of each container: 22.20 mts approx. Chemical Analysis Elements Value Elements Value Copper Cu 99.97% Min. Silica Si 0.3ppm Max. Cobalt Co 0.2ppm Max. Bismuth Bi 0.1ppm Max. Lead Pb 0.2ppm Max. Tellurium Te 0.05ppm Max. Iron Fe 2ppm Max. Silver Ag 10ppm Max. Aluminum Al 0.5ppm Max. Se 0.3ppm Max Manganese Mn 0.1ppm Max. S 4ppm Max. Nickel Ni 0.2ppm Max. MG 0.4ppm Max. Antimony Sb 0.1ppm Max. O2 0 AS 0.1ppm Max. Application In the power industry, cathode copper is used to manufacture cables, wires, and power grid equipment for efficient transmission of electricity. In the electronics industry, cathode copper is used to manufacture circuit boards, semiconductor devices, etc., to support the functionality and performance of electronic devices. In addition, cathode copper is also used in various applications in fields such as construction, chemical industry, and manufacturing, such as pipeline and alloy manufacturing.
Aluminum sows are large blocks of aluminum, typically produced for remelting in various applications. Their unique shape resembles a sow (female pig) lying on its side, making them easily identifiable in the aluminum industry. These sows are primarily created from primary aluminum or a blend of primary aluminum and scrap materials, making them crucial for wrought aluminum production. Overview Aluminum sows are essential products in the aluminum supply chain, utilized primarily for remelting purposes. They are characterized by their large, flat shape and significant weight, making them suitable for transportation and storage. Production Process Aluminum sows are produced by: Melting Primary Aluminum: Utilizing high-quality aluminum to ensure purity. Blending with Scrap: Incorporating various aluminum scrap materials to optimize costs and resource efficiency [1]. Casting: Pouring the molten aluminum into molds to form sows, which are then cooled and solidified. Applications Remelting: Primarily used in the remelting process for producing wrought aluminum products. Alloy Production: Can be blended with other metals to create specific aluminum alloys suitable for diverse applications. Specifications Feature Details Shape Large, flat ingots Primary Use Remelting and alloying Production Method Melting and casting Raw Materials Primary aluminum and scrap Benefits Cost-Effective: Utilizing scrap material reduces production costs. Versatile: Suitable for various aluminum applications, enhancing supply chain flexibility.
PACKAGING: 25kg per Ingots. 25kg X 40 Ingots per metric tons. 25 metric tons per 40 feet container. packaging can also be done according to customerâ??s request. Aluminum Ingots 99.9% Pure Aluminum Ingots 99.9% Chemical Composition:al Weight: 20/25kg Al (Min): 99%-99.9% Place of Origin: Appearance: silver white
Aluminum scrap refers to discarded aluminum materials that can be recycled to produce new aluminum products. It is a highly valued commodity due to its cost-effectiveness and environmental benefits, as recycling aluminum significantly reduces energy consumption and greenhouse gas emissions. 1. Product Overview Aluminum scrap is sourced from various end-of-life products, manufacturing processes, and consumer goods. It can be categorized into different grades based on purity and form, including: Type Description Post-Consumer Scrap : Scrap is obtained from used products like cans. Pre-Consumer Scrap Scrap generated during manufacturing processes. Dirty Alloys Scrap that contains impurities or mixed alloys. 2. Recycling Process The recycling of aluminum involves several steps: Collection: Gathering scrap from various sources. Sorting: Classifying scrap by type and quality. Melting: Heating aluminum scrap to its melting point. Casting: Forming new aluminum products from the molten metal. 3. Benefits of Recycling Aluminum Energy Savings: Recycling requires only about 5% of the energy needed to produce new aluminum from ore. Reduced Waste: Diverts scrap from landfills, promoting sustainability. Economic Value: Recycled aluminum can be sold at a higher value compared to other recycled materials.
Name Aluminum rod bar 5052 Standard ASTM  B209,JIS H4000-2006,GB/T 3190-2008,GB/T 3880-2006,etc. Material Grade 1,100,105,010,601,070,000,000,000,000,000,000,000,000 1000 Series 1050 1060 1070 1100 2000 Series 2024(2A12), LY12, LY11, 2A11, 2A14(LD10), 2017, 2A17 3000 Series 3A21, 3003, 3103, 3004,  3005, 3105 4000 Series 4A03, 4A11, 4A13, 4A17, 4004, 4032, 4043, 4043A, 4047, 4047A 5000 Series 5052, 5083, 5754, 5005, 5086,5182 6000  Series 6063, 6061, 6060, 6351, 6070, 6181, 6082, 6A02 700  Series 7075,7050,7A04,7472,7475 Diameter5mm-2500mm or as the customer's request Length 2000mm,2440mm,6000mm,or as required. or As customers requirements Tolerance Acording to the Standard. Surface Wire drawing,oxidation,PS,Mirror surface,Embossing etc Package Standard  export package,such as wooden box or as required. Certificate API Delivery Time 7-30Days,  Depends on quantity
Supply Ability Customization on Requirement Packaging Details Standard Export Packing Transportation Details Road/Ship Aluminium 6063, also known as architectural aluminum, is one of the most popular aluminum alloys for extrusion. This alloy is widely used for its excellent mechanical properties, corrosion resistance, and suitability for forming into complex shapes. Its ease of welding, heat treatability, and smooth finish make it a preferred choice in a variety of applications. Composition and Alloying Elements Aluminium 6063 is primarily composed of aluminum (Al) with two main alloying elements: magnesium (Mg) and silicon (Si). These form the intermetallic compound Mgâ??Si, which is crucial for its mechanical strength. Other trace elements may include iron (Fe), manganese (Mn), and chromium (Cr), which contribute to its extrudability and corrosion resistance. Mechanical Properties Aluminium 6063 is known for its moderate strength. It has a yield strength of around 290 MPa and a tensile strength ranging from 310 to 340 MPa. Though it is not as strong as other aluminum alloys like 6061, its mechanical properties make it ideal for structural applications where strength is secondary to appearance or corrosion resistance. Corrosion Resistance One of the defining characteristics of aluminium 6063 is its high resistance to corrosion. This is due to the presence of magnesium and silicon, which protect the material from oxidation and environmental damage. This makes it ideal for outdoor applications like window frames, door frames, and architectural finishes. Thermal and Electrical Conductivity Aluminium 6063, like other aluminum alloys, is an excellent conductor of heat and electricity. Its heat treatable properties allow it to be strengthened through processes like tempering, making it suitable for heat exchangers, radiators, and electronic applications. Applications of Aluminium 6063 Extrusion: Aluminium 6063 is widely used in extruded profiles such as rods, bars, and tubes. It is the preferred alloy for producing complex shapes due to its excellent extrudability. Construction: Known for its appearance and durability, 6063 is used extensively in architectural applications like window frames, curtain walls, and other building components. Automotive and Aerospace: Its lightweight properties and corrosion resistance make it a viable option for non-critical structural components in vehicles and aircraft.
AlSi132 is a high-performance aluminum-silicon alloy ingot characterized by its excellent corrosion resistance, thermal conductivity, and mechanical strength. It is commonly used in various industrial applications, including automotive and aerospace components. 1. Product Overview Alloy Designation: AlSi132 Composition: Predominantly aluminum with significant silicon content. 2. Chemical Composition The typical composition of AlSi132 is as follows: Element Percentage Silicon (Si) 11% -12.5% Iron (Fe) 0.5%- 0.7% Magnesium (Mg) 0.05% max Copper (Cu 1.9% -2.5% 3. Applications Automotive components (engine blocks, transmission cases) Aerospace structures Marine applications 4. Key Benefits Exceptional corrosion resistance High thermal conductivity Excellent mechanical strength, making it ideal for casting and machining processes.
AlMg1 is a high-performance aluminum-magnesium alloy ingot primarily composed of aluminum and magnesium. This alloy offers excellent corrosion resistance, lightweight properties, and is widely used in various industrial applications. 1. Product Overview Alloy Designation: AlMg1 Main Components: Aluminum (Al) and Magnesium (Mg) 2. Chemical Composition The alloy typically contains: Aluminum: 97.0%- 99.0% Magnesium: 0.5% - 1.0% Element Percentage Aluminum (Al) 97.0% -99.0% Magnesium (Mg) 0.5% - 1.0% 3. Applications Marine environments due to excellent resistance to seawater corrosion Automotive and aerospace industries for lightweight structural components Construction for facades and roofing 4. Key Benefits High strength-to-weight ratio Superior corrosion resistance Good weldability and formability
Feature Details Purity Level 99.85% Melting Process Discontinuous melting with scrap Industry Applications Automotive, aerospace, electrical Operational Efficiency Easy control and fast melting 1 Product Overview Grade: AL99.85 Purity: 99.85% aluminum Appearance: Silvery white 2. Applications The AL99.85 aluminum ingot is utilized in: Automotive manufacturing Aerospace components Electrical applications Construction materials 3. Production Process Melting Method: Discontinuous melting using scrap for sustainability. Control and Operation: Designed for easy control and efficient operation during the melting process. 4. Key Benefits Fast melting time Consistent quality for industrial applications Environmentally friendly, utilizing recycled materials where applicable
Property Specification Purity 99.90% Al minimum Weight 20 kg / 25 kg Density 2.7103 g/cm Melting Method Discontinuous melting AL99.90 aluminum ingots are primarily composed of high-purity aluminum, suitable for various applications in the automotive, construction, and manufacturing industries. Key Features Purity: Minimum 99.90% aluminum content. Weight Options: Available in standard weights of 20 kg and 25 kg. Density: Approximately 2.7103 g/cm. Melting Method: Designed for easy melting and processing, often used in discontinuous melting systems. Applications AL99.90 aluminum ingots are utilized in: Automotive Industry: Components and structures. Building Materials: Architectural applications. Consumer Goods: Furniture and interior fixtures.
Feature Details Purity Level 99.70% Melting Process Advanced techniques Industry Applications Automotive, aerospace, electrical Surface Finish Mill finish The AL99.70A aluminum ingot is a high-purity aluminum product with a minimum aluminum content of 99.70%. It is ideal for applications requiring exceptional quality and performance, such as in automotive and aerospace industries. The ingot is produced through advanced melting techniques to ensure optimal purity and consistency. 1. Product Overview Grade: AL99.70A Purity: 99.70% aluminum Appearance: Silvery white 2. Applications The AL99.70A aluminum ingot is used in: Automotive manufacturing Aerospace components Electrical applications Construction materials 3. Production Process Melting Method: Advanced techniques for high purity, including molten salt electrolysis methods. Surface Finish: Mill finish for optimal usability. 4. Key Benefits High purity minimizes contamination risks. Efficient remelting process for sustainable use. Suitable for a variety of industrial applications.
Feature Details Purity Level 99.70% Manufacturing Process Molten salt electrolysis Industry Applications Automotive, aerospace, electrical Surface Finish Mill finish The AL99.70 aluminum ingot is a high-purity product with a minimum aluminum content of 99.70%. It is designed for industrial applications requiring superior quality, such as in automotive and aerospace sectors. The ingot features a mill finish for improved usability and re-melting efficiency. 1. Product Overview Grade: AL99.70 Purity: Minimum 99.70% aluminum Appearance: Silvery white 2. Applications AL99.70 aluminum ingots are suitable for: Automotive parts manufacturing Aerospace components Electrical applications General construction materials 3. Production Process Manufacturing Method: Produced using molten salt electrolysis from alumina and cryolite. Surface Finish: Mill finish for optimal handling and processing. 4. Key Benefits High purity minimizes contamination risks. An efficient re-melting process ensures sustainability. Versatile applications across various industries.
Feature Details Purity Level 99.60% Manufacturing Process Molten salt electrolysis Industry Applications Automotive, electrical, manufacturing Surface Finish Non-alloy, mill finish The AL99.60 aluminum ingot is a high-purity product containing a minimum of 99.60% aluminum. It is primarily used in various industrial applications where high-quality aluminum is required, including manufacturing and remelting processes. 1. Product Overview Grade: AL99.60 Purity: Minimum 99.60% aluminum Appearance: Silvery white 2. Applications AL99.60 aluminum ingots are suitable for: Melting and remelting processes Manufacturing automotive components Electrical and structural applications 3. Production Process Manufacturing Method: Produced through methods such as molten salt electrolysis using alumina and cryolite, ensuring high purity standards. 4. Key Benefits High purity minimizes the risk of contamination. Versatile for various industrial uses. Efficient remelting capabilities.
Feature Details Purity Level 99.00% Manufacturing Process : Derived from pure aluminum Industry Applications : Manufacturing, construction, electrical Surface Finish : Bright, polished, or mill finish The AL99.00 aluminum ingot is a high-purity metal containing a minimum of 99.00% aluminum, suitable for a range of industrial applications requiring reliable quality and performance. 1. Product Overview Grade: AL99.00 Purity: Minimum 99.00% aluminum Appearance: Silvery white 2 Applications AL99.00 aluminum ingots are used in: Manufacturing processes Construction materials Electrical applications 3.Production Process Manufacturing Method: These ingots are typically produced through processes involving pure aluminum and may include elements like silicon and iron as per requirements. 4. Key Benefits High tensile strength Excellent corrosion resistance Versatility for various applications
A7, A8, A9 aluminum ingots are internationally recognized grades used to differentiate aluminum materials with different purities and compositions. Standard: ASTM, GB, DIN, BS, EN, JIS Type Describe A7 aluminum ingot A7 aluminum ingot is a high-purity aluminum ingot typically with aluminum purity of 99.7% or higher. It has relatively high purity and is commonly used in the production of aluminum alloy materials, aluminum sheets, aluminum profiles, etc. A8 aluminum ingot A8 aluminum ingot is an aluminum alloy ingot typically with aluminum purity of 99.8% or higher, along with a small amount of alloying elements such as copper, manganese, etc. It has higher strength and corrosion resistance and is commonly used in automotive parts, aerospace, construction, etc. A9 aluminum ingot A9 aluminum ingot is an aluminum alloy ingot typically with aluminum purity of 99.9% or higher, along with a certain proportion of alloying elements such as copper, manganese, magnesium, etc. It has higher strength and corrosion resistance and is commonly used in aerospace, automotive parts, construction, electronics, etc. Chemical Analysis Product Specification and Size : Product name Aluminum Ingot Chemical Composition Al Al (Min) 99.5% -99.9% Model Number Aluminum Ingot Shape Ingot Surface Treatment Anodized Regular Size 30*150*700mm Length Base on customers surface treatment Applications Mainly used for casting and deformation of aluminum alloy Widely used in automobile, textile, electronics and other industries Export to America, Australia, Brazil, Canada, Peru, Iran, Italy, India, United Kingdom, Arab, etc. Chemical Composition (%) Grade Al Impurities Al Si Fe Cu Ga Mg Zn Mn Others Sum Al99.9 99.90 0.50 0.07 0.005 0.02 0.01 0.025 0.010 0.10 Al99.85 99.85 0.80 0.12 0.005 0.03 0.02 0.030 0.015 0.15 Al99.7 99.70 0.10 0.20 0.010 0.03 0.02 0.030 0.030 0.30 Al99.6 99.60 0.16 0.25 0.010 0.03 0.03 0.030 0.030 0.040 Al99.5 99.50 0.22 0.30 0.020 0.03 0.05 0.050 0.030 0.50 Al99.00 99.00 0.42 0.50 0.020 0.03 0.05 0.050 0.050 1.00 Application Ordinary industrial pure aluminum is thought as 1000 series aluminum ingot, aluminum content upto 99.0%. Low strength, heat treatment canot be further strengthened; But it is very malleable. Aluminum products have good corrosion resistance and weldability; After anodic oxidation, thecorrosion resistance of aluminum ingot are often improved, and a more beautiful surface layer can be obtained.
A7, A8, A9 aluminum ingots are internationally recognized grades used to differentiate aluminum materials with different purities and compositions. Standard: ASTM, GB, DIN, BS, EN, JIS Type Describe A7 aluminum ingot A7 aluminum ingot is a high-purity aluminum ingot typically with aluminum purity of 99.7% or higher. It has relatively high purity and is commonly used in the production of aluminum alloy materials, aluminum sheets, aluminum profiles, etc. A8 aluminum ingot A8 aluminum ingot is an aluminum alloy ingot typically with aluminum purity of 99.8% or higher, along with a small amount of alloying elements such as copper, manganese, etc. It has higher strength and corrosion resistance and is commonly used in automotive parts, aerospace, construction, etc. A9 aluminum ingot A9 aluminum ingot is an aluminum alloy ingot typically with aluminum purity of 99.9% or higher, along with a certain proportion of alloying elements such as copper, manganese, magnesium, etc. It has higher strength and corrosion resistance and is commonly used in aerospace, automotive parts, construction, electronics, etc. Chemical Analysis Product Specification and Size : Product name Aluminum Ingot Chemical Composition Al Al (Min) 99.5% â?? 99.9% Model Number Aluminum Ingot Shape Ingot Surface Treatment Anodized Regular Size 30*150*700mm Length Base on customersâ?? surface treatment Applications Mainly used for casting and deformation of aluminum alloy Widely used in automobile, textile, electronics and other industries Export to America,� Russia,� Australia, Brazil, Canada, Peru, Iran, Italy, India, United Kingdom, Arab, etc. Chemical� Composition� (%)� Grade Alâ?¥ Impuritiesâ?¤ Al Si Fe Cu Ga Mg Zn Mn Others Sum Al99.9 99.90 0.50 0.07 0.005 0.02 0.01 0.025 â?? 0.010 0.10 Al99.85 99.85 0.80 0.12 0.005 0.03 0.02 0.030 â?? 0.015 0.15 Al99.7 99.70 0.10 0.20 0.010 0.03 0.02 0.030 â?? 0.030 0.30 Al99.6 99.60 0.16 0.25 0.010 0.03 0.03 0.030 â?? 0.030 0.040 Al99.5 99.50 0.22 0.30 0.020 0.03 0.05 0.050 â?? 0.030 0.50 Al99.00 99.00 0.42 0.50 0.020 0.03 0.05 0.050 â?? 0.050 1.00 Application Ordinary industrial pure aluminum is thought as 1000 series aluminum ingot, aluminum content upto 99.0%. Low strength, heat treatment canâ??t be further strengthened; But it is very malleable. Aluminum products have good corrosion resistance and weldability; After anodic oxidation, thecorrosion resistance of aluminum ingot are often improved, and a more beautiful surface layer can beobtained.
