• Aluminum Coil 5754 5005,8079,8011,1050,1060 System 1
  • Aluminum Coil 5754 5005,8079,8011,1050,1060 System 2
  • Aluminum Coil 5754 5005,8079,8011,1050,1060 System 3
Aluminum Coil 5754 5005,8079,8011,1050,1060

Aluminum Coil 5754 5005,8079,8011,1050,1060

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Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
5 m.t.
Supply Capability:
15000 m.t./month

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Packaging & Delivery

Packaging Details:

Standard export packing or following customer's demand

Delivery Detail:

Within 10-20days or according to the order quantity

High Quality and Factory Price Aluminum Coil

 

Specifications

 

 

Grade

 

1000 Series: 1050 1060 1070 1100 1200 1235 etc.

3000 Series: 3003 3004 3005 3104 3105 3A21 etc.

5000 Series: 5005 5052 5083 5086 5154 5182 5251 5754 etc.

6000 Series: 6061 6063 6082 6A02 etc.

8000 Series: 8006 8011 8079 etc.

Thickness

0.05~10mm

Width

<1600mm< span="">

Color

Metallic, Solid, RAL or by customer requirements

Coating paint:

PVDF(Polyvinylidene Fluoride), PE(Polyester )

Coating thickness

as per customer’s request

Gloss

10-90%(EN ISO-2813:1994)

Total coating thick

Polyester18~27micron(EN ISO-2360:1995)

PVDF27 ~35micron(EN ISO-2360:1995)

Coating hardness

2H

Protective film

PVC film, Colorless transparent or White-black

Adhesion

5B (EN ISO-2409:1994)

Impact resistance

No cracking and peeling (A.S.T.M D2794-1993)

Flexibility (T-bend)

0T- 2T

Temper

H16, H18, H24, H26, H26

Certification

ISO9001:2000, CE, SGS

Coil's standard diameter

1100mm

Inner Diameter

405mm/505mm

Coil's standard weight

2000kgs

Payment

L/C ,T/T

 

Parameter           

Product

Alloy

Temper

Thickness

Width

I.D(mm)

Application

Aluminum Coil/Strip

1050,1060,1070,

1100,1200,1235,

1145,3003,304,

3105,3A21,

8011

H12 H14

H16 H18 H22

H24 H26

0.2-8mm

50-2400mm

75,150

200,300

400,505

(as customers's

request)

construction,decoration,

automobile,electronic,

machinery,boat construction,

aeronatics&astronautics,

cookware,packing etc.

Application:

 

1) Radiator 

2) Condenser

3) Insulation Material

4) Construction

5) Decoration

6) Advertisement and market applications   

 

Photos 

 

Aluminum Coil 5754 5005,8079,8011,1050,1060

Aluminum Coil 5754 5005,8079,8011,1050,1060

Aluminum Coil 5754 5005,8079,8011,1050,1060

 

Q:A piece of aluminum foil 0.550 mm thick and 1.00 cm square is allowed to react with bromine to form aluminum bromide?a) How many mole of aluminum were used? ( The density of aluminum is 2.699 g/cm3.)I keep getting the same answer which I know is wrong. I used a formula to get the volume and then the mass to get the moles, but maybe this is wrong. Could someone explain the process. I got 4.32 x 10-1 mol Al, but the answer is 5.50 x 10-3 mol Al.
0.550mm = 0.055cm 0.055 x 1 x 1 = 0.055cc x 2.699g/cc = 0.1484g Al. Mol.mass = 27 g/mole 0.1484 ÷ 27 = 0.0055 moles. (5.5 x10-?)
Q:May anyone tell me what's the product when hydrochloric acid reacts with aluminum?HCl + Al → ?
2Al + 6HCl - 2AlCl3 + 3H2
Q:How are aluminum coils used in the production of heat sinks?
Aluminum coils play a vital role in the production of heat sinks due to their excellent thermal conductivity and malleability. Heat sinks are designed to dissipate the excess heat generated by electronic components such as processors, integrated circuits, and power transistors. By utilizing aluminum coils in the manufacturing process of heat sinks, several key advantages are realized. Firstly, aluminum coils possess high thermal conductivity, which allows for efficient transfer of heat from the electronic component to the heat sink. This is crucial for maintaining the optimal operating temperature of the electronic device, as excess heat can cause performance degradation and even permanent damage. The high thermal conductivity of aluminum ensures that the heat is rapidly dissipated away from the electronic component, preventing overheating. Secondly, aluminum coils are highly malleable, making them easy to shape and mold into various designs required for heat sinks. Heat sinks are available in different sizes and shapes, with the most common being finned heat sinks. The fins on the heat sink increase the surface area, allowing for greater heat dissipation. Aluminum coils can be easily formed into these fin shapes, enabling the heat sink to effectively release heat into the surrounding environment. Additionally, aluminum coils are lightweight and corrosion-resistant, making them ideal for use in heat sinks. The lightweight nature of aluminum ensures that the heat sink does not add significant weight to the electronic device, which is especially important in applications where weight restrictions are crucial, such as aerospace or portable electronics. Moreover, the corrosion-resistant properties of aluminum ensure the longevity and durability of the heat sink, even in harsh environments. In conclusion, aluminum coils are essential components in the production of heat sinks due to their high thermal conductivity, malleability, lightweight, and corrosion-resistant properties. By incorporating aluminum coils into the manufacturing process of heat sinks, efficient heat dissipation and improved performance of electronic components can be achieved, ultimately prolonging the lifespan of electronic devices.
Q:Can aluminum coils be used in the manufacturing of electronic devices?
Electronic devices can utilize aluminum coils due to their versatile nature and widespread use in various industries, including electronics. Transformers, inductors, and other components of electronic devices often incorporate aluminum coils. The lightweight nature of aluminum coils is one of their major benefits in electronic devices. Compared to materials like copper, aluminum is significantly lighter, making it easier to handle and transport. Moreover, aluminum possesses excellent thermal conductivity, promoting efficient heat dissipation within electronic devices. In addition, aluminum coils exhibit resistance to corrosion, which is vital in electronic applications where exposure to moisture or harsh environments is likely. This corrosion resistance plays a crucial role in extending the lifespan of electronic devices and ensuring their reliability. Furthermore, aluminum coils can be easily shaped and sized to fit various electronic device designs. This flexibility allows for customization to meet specific requirements, such as fitting into compact spaces or achieving desired electrical characteristics. In summary, aluminum coils offer numerous advantages in the manufacturing of electronic devices, including their lightweight nature, good thermal conductivity, resistance to corrosion, and flexibility in design.
Q:Can aluminum coils be used for HVAC systems?
Indeed, HVAC systems can utilize aluminum coils. Aluminum coils are frequently employed in HVAC systems due to their numerous advantages over alternative coil materials. To begin with, aluminum is a lightweight substance, facilitating easier handling and installation. Consequently, this can lead to decreased installation costs and diminished strain on the HVAC system's structure. Furthermore, aluminum coils possess exceptional heat transfer properties. They proficiently transfer heat from the refrigerant to the surrounding air, a critical aspect for the efficient operation of the HVAC system. Additionally, aluminum coils demonstrate a high resistance to corrosion, a quality of particular significance in environments with high humidity or pollutant levels. Moreover, aluminum stands as an immensely recyclable material, rendering it an environmentally conscious choice for HVAC systems. It can be effortlessly recycled and reused, thereby reducing the necessity for extracting new materials and minimizing waste generation. To summarize, aluminum coils represent a reliable and efficient selection for HVAC systems, offering remarkable heat transfer capabilities, durability, and environmental sustainability.
Q:What is the typical lead time for ordering aluminum coils?
The typical lead time for ordering aluminum coils can vary depending on the supplier and specific requirements, but it usually ranges from a few days to a few weeks.
Q:Are there any limitations on the length of aluminum coils?
The length of aluminum coils is indeed constrained by several practical factors. These factors include transportation, handling, and manufacturing capabilities. Transportation presents a significant limitation, as longer coils can be challenging to move efficiently. Loading, unloading, shipping, and logistics become more difficult due to the size and weight of these coils. Specialized equipment may be necessary, which can increase costs and complexity. Handling is another constraint, as longer coils are harder to maneuver and manipulate during production. Larger and more robust machinery may be required, which may not be available or feasible in all manufacturing facilities. Manufacturing capabilities also impose restrictions on coil length. Equipment used for coil production may have size and capacity limitations. Coil processing lines and machinery may have maximum lengths they can handle, and exceeding these limits may not be possible or economically viable. In conclusion, while there is no universal limit on aluminum coil length, practical constraints in transportation, handling, and manufacturing can impose limitations. The specific length of aluminum coils depends on factors such as transportation capabilities, handling feasibility, and manufacturing processes.
Q:How are aluminum coils used in heating, ventilation, and air conditioning (HVAC) systems?
Aluminum coils play a crucial role in heating, ventilation, and air conditioning (HVAC) systems. These coils are used in both the condenser and evaporator sections of the system. In the condenser, the aluminum coils help transfer heat from the refrigerant to the surrounding air. The refrigerant, which is in a high-pressure and high-temperature state after being compressed, flows through the condenser coils. As the air from the surroundings passes over these coils, the heat from the refrigerant is transferred to the air. This process helps in cooling down the refrigerant, converting it from a gas to a liquid state. The cooled liquid refrigerant then flows to the evaporator coil. In the evaporator, the aluminum coils assist in absorbing heat from the indoor air. The liquid refrigerant enters the evaporator coils, where it undergoes a phase change from liquid to gas. As the warm indoor air passes over the coils, the refrigerant absorbs the heat, cooling down the air. This cooled air is then circulated back into the room, providing a comfortable indoor environment. The aluminum coils are preferred in HVAC systems due to their excellent thermal conductivity, corrosion resistance, and lightweight nature. These properties ensure efficient heat transfer and improve the overall performance of the system. Additionally, aluminum coils are more cost-effective and environmentally friendly compared to other materials like copper. Regular maintenance and cleaning of the aluminum coils are necessary to ensure their optimal functioning. Over time, dirt, dust, and debris can accumulate on the coil surface, hampering heat transfer and reducing efficiency. Therefore, periodic cleaning is essential to maintain the performance of the HVAC system and extend the lifespan of the aluminum coils.
Q:What are the common surface protection methods for aluminum coils?
The common surface protection methods for aluminum coils include anodizing, painting, and coating with protective films or laminates.
Q:How much is one ton of aluminum coil?
The price of aluminum sheet is calculated according to the price of aluminum ingot + processing fee (aluminum plate state), and the specific price is also different according to the size and size of aluminum sheet.If you have any questions, please ask. I hope to help you.

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