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| Customization: | Available |
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| Composition: | Aluminum Ingots |
| Shape: | Block |
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1. Low density: The density of aluminum is about 2.7g/cm ³, much lower than traditional materials such as steel, which allows aluminum and its alloys to significantly reduce weight while maintaining strength.
2. High specific strength: By adding other elements such as magnesium, silicon, copper, etc., the strength of aluminum alloys can be significantly improved.
3. Corrosion resistance: Aluminum forms a dense oxide film in air, which has good corrosion resistance; Adding other elements can further improve the corrosion resistance of aluminum alloys.
4. High conductivity: Aluminum's conductivity is second only to copper and is suitable for manufacturing power transmission equipment such as wires and cables.
5. Efficient heat dissipation: Aluminum has a high thermal conductivity, which can quickly conduct heat and is suitable for scenarios that require efficient heat dissipation.
6. Easy to process: Aluminum and its alloys have good ductility and plasticity, and can be made into complex shapes through various processing methods such as casting, extrusion, rolling, etc.
| Product name | Aluminum Ingot 99.7% 99.9% |
| Alloy Or Not | Alloy |
| Material | 1000-7000 series |
| Grade | 3000 series |
| Keyword | A199.90 A199.85 A199.70 |
| Chemical Composition | Cu, Mn, Si, Ni, Mg, Sn, Zn, Pb, Fe, Ti |
| HS Code | 7601109000 |
| Packing | Standard Seaworthy Packaging |
1. Building structure: such as aluminum alloy doors and windows, curtain walls, roofs, etc., can ensure the stability and durability of the building structure.
2. Decorative materials: such as aluminum plates, aluminum strips, aluminum foil, etc., used for indoor and outdoor decoration to enhance the aesthetics and modernity of buildings.
3. Automobile manufacturing: such as manufacturing the body, engine components, wheels, etc., can significantly reduce the weight of the car, improve fuel economy and power performance.
4. Rail transit: Manufacturing subway cars, high-speed rail cars, etc. can help improve the energy efficiency and service life of vehicles.
5. Aerospace: Key components such as aircraft fuselage, wing beams, landing gear, etc., can ensure the safety and reliability of the aircraft.
6. Power equipment: Components such as the casing and radiator of transformers, circuit breakers, etc. can improve the energy efficiency and service life of power equipment.
7. Beverage cans and food packaging: such as cans, aluminum foil bags, etc., can ensure the sealing and durability of products and reduce environmental pollution.
8. Electronic devices: Components such as casings and heat sinks of mobile phones, laptops, etc. can improve the heat dissipation performance and service life of electronic devices.
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