Aluminum 3xxx Quality D.C. Aluminum Circles
- Ref Price:
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- Loading Port:
- China Main Port
- Payment Terms:
- TT or LC
- Min Order Qty:
- 8 m.t.
- Supply Capability:
- 10000 m.t./month
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1.Structure of Aluminum Circles D.C Quality 3XXX Description
Aluminum Circles D.C Quality 3XXX is made from aluminum coils 3xxx.Aluminum circles D.C quality 3XXX has great ductility, heat conductivity, anti-corrosion and moisture resistance properties.
Aluminum Circles D.C Quality 3XXX are widely used for kitchen wares including fried pans, non-sticky pans, cooking pots,hard anodized cookware, pressure cooker and house hold utensils.
2.Main Features of the Aluminum Circles D.C Quality 3XXX
• Superior quality of raw material
• Reasonable and stable chemical composition
• Accurate tolerance
• Goode mechanical property
3.Aluminum Circles D.C Quality 3XXX Images
4.Aluminum Circles D.C Quality 3XXX Specification
| Alloy | AA3xxx (AA3003 etc) |
| Temper | O.H14 |
| Thickness | 0.5mm-4mm |
| Diagonal | 100mm-1200mm |
| Standard | GB/T 3880-2006 |
5. FAQ of Aluminum Circles D.C Quality 3XXX
A.When will you deliver the products?
The aluminum aluminum sheets 1xxx C.C quality will be delivered within 35 days after receiving advanced payment or original L/C.
B. Now which countries do you export your goods?
Now we export to South East Asia,Africa, North America,South America ect.
- Q: Is it possible to utilize recycled aluminum in the production of new products more efficiently than current methods?
- <p>Yes, recycled aluminum can be used more effectively in new products than before. Advances in recycling technology have made it easier to purify and refine aluminum from various sources, including post-consumer waste. This not only conserves natural resources but also reduces energy consumption compared to mining and processing raw bauxite. Additionally, the circular economy approach promotes the design of products that are easier to disassemble and recycle, further enhancing the efficiency of using recycled aluminum in new products.</p>
- Q: Is aluminum a suitable material for use in the electronics manufacturing industry?
- <p>Yes, aluminum is widely used in electronics manufacturing due to its excellent electrical conductivity, lightweight nature, and resistance to corrosion. It is commonly used in various electronic components such as heat sinks, capacitors, and wiring. Aluminum's malleability also allows it to be easily shaped into different forms, making it versatile for manufacturing purposes. Additionally, it is cost-effective and abundant, which further contributes to its popularity in the electronics industry.</p>
- Q: This question asks about the safe usage of aluminum in everyday life.
- <p>Aluminum is widely used in daily life due to its lightweight and corrosion-resistant properties. To use aluminum safely, ensure that aluminum cookware is not used for acidic foods as it may leach aluminum into the food. Avoid storing acidic beverages like soda in aluminum cans for extended periods. Use aluminum foil in moderation, especially when cooking at high temperatures, as it can release aluminum into food. Always wash aluminum utensils thoroughly before and after use. For aluminum cans, recycle them to reduce environmental impact and avoid ingestion of aluminum particles from damaged cans.</p>
- Q: Is aluminum suitable for use in paint and coating applications?
- <p>Yes, aluminum can be used in paints and coatings. It is often used in the form of aluminum pigments or flakes, which provide a metallic appearance and enhance the durability and corrosion resistance of the coating. Aluminum pigments are also valued for their ability to reflect light and heat, making them useful in applications requiring thermal insulation or reflective properties. Additionally, aluminum can be used in powder coatings, providing a hard, wear-resistant finish.</p>
- Q: This question asks for the various applications or purposes of aluminum alloys.
- <p>Aluminum alloys are used in a wide range of applications due to their lightweight, high strength, and corrosion resistance. They are commonly used in the automotive industry for vehicle construction to reduce weight and improve fuel efficiency. In the aerospace industry, they are essential for constructing aircraft and spacecraft. Other applications include construction materials, such as window frames and roofing, and in consumer goods like beverage cans and electronic devices. Aluminum alloys are also utilized in machinery and transportation equipment, sports equipment, and various engineering components where a combination of strength, durability, and low weight is required.</p>
- Q: What are some important safety measures to take when handling or working with aluminum?
- <p>When working with aluminum, it's crucial to take several safety precautions. Always wear appropriate personal protective equipment (PPE), including safety glasses, gloves, and a dust mask to prevent inhalation of aluminum dust. Ensure good ventilation to avoid build-up of fumes, especially during welding or cutting processes. Use proper tools designed for aluminum to prevent sparks and overheating. Be aware of the fire hazard; aluminum can burn at high temperatures, so have fire extinguishers readily available. Finally, be cautious with chemicals used in aluminum processing, as they can be harmful; always follow the manufacturer's safety instructions.</p>
- Q: This question asks about the amount of energy needed to produce aluminum, including the process and factors that influence energy consumption.
- <p>Producing aluminum requires a significant amount of energy, primarily due to the electrolytic process used to extract it from its ore, bauxite. The Hall-H茅roult process, the most common method, consumes about 15,000 to 16,000 kilowatt-hours of electricity per ton of aluminum produced. This high energy demand is largely due to the strong chemical bonds in aluminum oxide, which must be broken to release the aluminum. Energy consumption can vary based on the efficiency of the smelting process, the quality of the bauxite, and the energy source used, with renewable energy potentially reducing the carbon footprint but not necessarily the total energy input.</p>
- Q: This question asks for the specific temperature at which aluminum oxide transitions from a solid to a liquid state.
- <p>The melting point of aluminum oxide (Al2O3) is approximately 2072掳C (3767.6掳F). It is a high melting point due to the strong ionic bonds between aluminum and oxygen atoms in the crystal structure. This high melting point makes aluminum oxide a common material in high-temperature applications such as refractory materials and abrasives.</p>
- Q: What are the primary applications and benefits of aluminum in various industrial sectors?
- <p>Aluminum is extensively used in the industry due to its lightweight, high strength, and excellent corrosion resistance. It is a key material in the aerospace industry for aircraft construction to reduce weight and improve fuel efficiency. In the automotive sector, aluminum is used for engine parts and body panels to enhance fuel economy and performance. The construction industry utilizes aluminum for window frames, roofing, and structural components due to its durability and low maintenance. Aluminum is also prevalent in the packaging industry for food and beverage cans, and in electrical applications for wiring and transformers due to its high conductivity. Its recyclability makes it an environmentally friendly choice, further enhancing its industrial applications.</p>
- Q: Describe the process of manufacturing aluminum from its raw materials to the final product.
- <p>The manufacturing process of aluminum involves several key steps. Initially, bauxite ore, the primary source of aluminum, is mined. The ore is then crushed and washed to remove impurities. Next, the bauxite is processed through the Bayer process, which involves digestion in a caustic soda solution to produce a solution of sodium aluminate. This solution is then seeded with aluminum hydroxide, causing crystals to form, which are then filtered out, washed, and calcined to produce aluminum oxide, also known as alumina. Finally, in the Hall-H茅roult process, alumina is dissolved in a cryolite bath and electrolyzed to extract pure aluminum. This process involves passing an electric current through the bath, causing aluminum ions to be reduced and collected at the cathode as molten aluminum, which is then tapped off and cast into various forms for use in manufacturing.</p>
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Aluminum 3xxx Quality D.C. Aluminum Circles
- Ref Price:
-
- Loading Port:
- China Main Port
- Payment Terms:
- TT or LC
- Min Order Qty:
- 8 m.t.
- Supply Capability:
- 10000 m.t./month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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