Ai Ingots Suppliers and Manufacturers

Oinp, newspapers, sugar, rice, charcoal, plastic granules, copper, aluminium, water chemicals, cooking oil, a4 paper, dried fish, canned fish, recycled plastic pellets, virgin plastic pellets, pet flakes, scraps, energy drinks, animal feed, plastic bags, jute bags, cashew nuts, black pepper.Trading, import & export company

Remelted lead ingots, lead ingots, tin, copper, aluminum, brass ingots wire and sheets and other custom metal products.

Metals ferrous and non ferrous, such as : aluminium ingots a7, copper cathodes 99.9% , copper milberry scrap 99.7%, hms 1&2, iron ore 62 64%, nickel wire etc., rapeseed oil, sunflower oil, corn oil, peanut oil, coal.

Ferrous: hms 1/2, used rails r50, r65. used drill pipes. nonferrous :copper cathodes, aluminium ingots a7, lead ingots, zinc ingots. minerals : iron ore, copper ore concentrate, lead ore concentrate, zinc ore concentrate, manganese ore, nickel ore. metallurgical coke, petroleum coke. steam coal. agriculture food: all grade rice, wheat, soya beans, sunflower oil, virgin olive oil. petroleum products : diesel fuel, gasoil, jet fuel ai, jet fuel 54. en500, d2, d6..

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.

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.

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