• Aluminum Circles for Aluminum Pots Deep Drawing System 1
  • Aluminum Circles for Aluminum Pots Deep Drawing System 2
Aluminum Circles for Aluminum Pots Deep Drawing

Aluminum Circles for Aluminum Pots Deep Drawing

Ref Price:
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Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
5 m.t.
Supply Capability:
2000 m.t./month

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Specification

Grade:
1000 Series
Surface Treatment:
Mill Finish
Shape:
Round
Temper:
O,Hard
Application:
Kitchen Use

1. DC Aluminium Circle Description


   DC circle is cut from Direct Cast Coil which is suitable for anodizing and painting. If production mode is deepdrawing, also the deepdrawing depth is more than 120mm, circles cut from DC coil will work better.  

 

2. Feature of DC Aluminium in Coil Form for making Aluminium Circle

Surfact Quality :

 Be free from Oil Stain, Dent, Inclusion, Scratches, Stain, Oxide Dicoloration, Breaks, Corrosion, Roll Marks, Dirt Streaks and other defect which will interfere with use,

 

Mechenical Property:

Chemical Composite and Mechanical Property

 

 

3. Image of DC Aluminium Circle Cookware and Packging

 

 

Aluminium Circles for Aluminium Pots Deepdrawing

Aluminium Circles for Aluminium Pots Deepdrawing

 

 

4. Specification of CC Aluminium in Coil Form for making Aluminium Circle

 

Aluminum Coil/Sheet

Main Specification

Alloy

AA1xxx (AA1050, AA1060, AA1070, AA1100 etc.)

AA3xxx (AA3003, AA3004, AA3005, AA3105 etc.)

AA5xxx, AA6XXX (AA5052,AA5083, AA5754, AA6061, AA6062 etc.)

AA8xxx(AA8011, AA8006 etc.)

Temper

H14,H16, H18, H22, H24, H26, H32,O/F, T4, T6, T651

Thickmess

0.01mm-100mm

Width

30mm-1700mm

Standard

GB/T 3880-2006/ASTM

Special specification is available on customer's requirement

 

5. FAQ

1) What is the delivery time?

Depends on actual order, around 20 to 35 days

2) What is the QC system?

We have QC staff of 20 persons and advanced equipment, each production is with MTC traced from Aluminium ingot lot.

3) What market do you mainly sell to?

Australia, America, Asia, Middle East, Western Europe, Africa etc.

4) What is payment term?

30% T/T in advance, balance against B/L Copy or 100% L/C at sight.

 

 

Q: This question asks about the interaction between aluminum and electromagnetic radiation, specifically how aluminum influences or is affected by such radiation.
<p>Aluminum has a high electrical conductivity and is a good reflector of electromagnetic radiation. It reflects a wide range of frequencies, including visible light, ultraviolet, and infrared radiation. Due to its reflective properties, aluminum is used in applications such as reflective coatings for insulation and mirrors. It also has the ability to shield against electromagnetic radiation, making it a common material in the construction of Faraday cages, which are used to block external electromagnetic fields. Aluminum's effect on electromagnetic radiation is primarily through reflection and shielding, rather than absorption or transmission.</p>
Q: This question asks for various applications of recycled aluminum other than its traditional uses.
<p>Recycled aluminum has a wide range of alternative uses. It can be used in the manufacturing of new aluminum products, reducing the need for raw materials. It's also used in construction for window frames, doors, and roofing. In the automotive industry, recycled aluminum is used for car parts, helping to reduce vehicle weight and improve fuel efficiency. Additionally, it's utilized in the aerospace industry for lightweight aircraft components. Recycled aluminum is also found in everyday items like cans, foil, and packaging materials. Furthermore, it's used in electrical components due to its excellent conductivity, and in the production of bicycles and sports equipment for its strength and lightweight properties.</p>
Q: This question asks about the health effects of consuming aluminum on human health.
<p>Aluminum consumption can have various effects on human health, though the extent of its impact is still a subject of debate among researchers. High levels of aluminum intake have been associated with neurological disorders, particularly Alzheimer's disease, although a direct causal link has not been definitively established. Aluminum can also interfere with bone health, potentially leading to osteoporosis, and may affect the kidneys, causing dysfunction. It is important to note that the human body naturally excretes aluminum, so moderate exposure is generally not harmful. However, excessive intake, especially over a long period, could pose health risks.</p>
Q: Describe the process of electrolysis used in aluminum production.
<p>The process of electrolysis for aluminum production involves the Hall-H茅roult process, which is the primary method for extracting aluminum from its ore, bauxite. First, bauxite is refined to produce aluminum oxide (alumina). This alumina is then dissolved in a molten cryolite bath, which lowers the melting point and increases the electrical conductivity. Large amounts of electricity are passed through the bath, causing the alumina to decompose into aluminum metal and oxygen gas. The aluminum collects at the bottom of the cell and is periodically tapped off, while the oxygen is released into the atmosphere. This energy-intensive process is crucial for the aluminum industry, as it allows for the production of large quantities of aluminum, a key material in various industries.</p>
Q: Describe the melting process of aluminum, including the temperature range and any specific characteristics.
<p>The melting process of aluminum involves heating the metal to its melting point. Pure aluminum has a melting point of approximately 660.3掳C (1220.5掳F). During the melting process, aluminum changes from a solid to a liquid state. It is important to control the temperature carefully to avoid overheating, which can lead to oxidation and the formation of dross. Aluminum is a good conductor of heat, so it heats up quickly. The melting process is often carried out in a furnace or a crucible, and protective gases like chlorine or inert gases are used to prevent oxidation. The molten aluminum is then used for various applications such as casting or welding.</p>
Q: Is it possible to utilize aluminum in the manufacturing process of solar panels?
<p>Yes, aluminum is indeed used in the production of solar panels. It is primarily employed as a component of the frame that supports and protects the panel. Aluminum's light weight, high strength, and corrosion resistance make it an ideal material for this purpose. Additionally, aluminum can be used in the backsheet of the solar panel, providing structural support and helping to protect the panel from environmental factors. However, aluminum is not used in the actual photovoltaic cells that convert sunlight into electricity; those are typically made from silicon.</p>
Q: This question asks about the reactivity of aluminum with various substances, including its chemical reactions and properties.
<p>Aluminum is a highly reactive metal that readily reacts with oxygen to form a protective layer of aluminum oxide on its surface. It can also react with acids, such as hydrochloric or sulfuric acid, to produce hydrogen gas and aluminum salts. In the presence of a strong base, aluminum can react to form aluminates and hydrogen gas. Additionally, aluminum can reduce certain metal oxides, such as iron oxide, in a thermite reaction. However, due to its reactivity, aluminum is often used in alloys with other metals to improve its strength and corrosion resistance.</p>
Q: Is aluminum a suitable material for manufacturing electric wires and cables?
<p>Yes, aluminum is commonly used to make electric wires and cables due to its excellent electrical conductivity, which is about 61% that of copper. It is lighter than copper and more abundant, making it cost-effective. Aluminum's high resistance to corrosion also makes it a durable choice for wiring. Despite its lower conductivity compared to copper, its lower cost and weight often make it the preferred material for power transmission lines and electrical wiring in various applications.</p>
Q: This question asks about the impact of using aluminum tools and equipment in the workplace.
<p>Using aluminum tools and equipment in the work environment can have several effects. Firstly, it can enhance safety due to aluminum's non-magnetic and non-conductive properties, which reduce the risk of electrical hazards. Secondly, aluminum is lightweight, which can decrease fatigue for workers and improve efficiency. Additionally, its corrosion resistance means longer tool life and less frequent replacement, which can save costs. However, aluminum's lower strength compared to some other metals might limit its use in high-stress applications. Overall, the choice to use aluminum depends on balancing these factors with the specific requirements of the work environment.</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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