• Color Coating Aluminium Coil PVDF Painting for Outer Doors System 1
  • Color Coating Aluminium Coil PVDF Painting for Outer Doors System 2
Color Coating Aluminium Coil PVDF Painting for Outer Doors

Color Coating Aluminium Coil PVDF Painting for Outer Doors

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Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
5 m.t.
Supply Capability:
10000 m.t./month

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Item specifice

Grade:
1000 Series,3000 Series,5000 Series
Surface Treatment:
Color Coated
Shape:
Round
Temper:
O-H112
Application:
Decorations

1.    Specification of Color Coating Aluminium Coil PVDF Painting for Outer Doors

Material

 Alloy Aluminum 1XXX,3XXX,5XXX or customer nominated

Temper

 T3, T4, T5, T6

Surface

 Anodize, electrophoresis, powder coating,PVDF coating, wood grain painting, matted, etc.

Colour

 Any colour based on Standard Germany   RAL   Mark

Length

 Coating 6.5 meters, Anodizing 6.5   meters,   Mill finish 5 meters

Press Machine

 500-4000 tons all together 64 press   lines.

Fabrication

 1. Windows and doors; 2. Drilling; 3.     Bending; 4. Cutting; 5. etc.

Certificate

  ISO 9001

Moulding

1.      Using our moulds, no fee; 

 2. Using customer drawing, opening   mould,   usually about 10~50 tons then the moulding can be refunded.

 3. Mould cost is negotiable base on   the   order quantity

Capability

 Annual output 100,000 tons

 

2.    Application of Color Coating Aluminium Coil PVDF Painting for Outer Doors

(1).Interior: wall cladding, ceilings, bathrooms, kitchens and balconies, shutters, doors...

(2).Exterior: wall cladding, facades, roofing, canopies, tunnels,column covers , renovations...

(3).Advertisement: display platforms, signboards, fascia, shop fronts...

 

3.    Feature of Color Coating Aluminium Coil PVDF Painting for Outer Doors

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

 

4.    Certificate:

SGS and ROHS(if client request, paid by client), MTC(plant provided), Certificate of Origin(FORM A, FORM E, CO),  Bureau Veritas and SGS (if client request, paid by client), CIQS certificate

 

5.    Image of Color Coating Aluminium Coil PVDF Painting for Outer Doors

 

Color Coating Aluminium Coil PVDF Painting for Outer Doors

Color Coating Aluminium Coil PVDF Painting for Outer Doors

Color Coating Aluminium Coil PVDF Painting for Outer Doors

Color Coating Aluminium Coil PVDF Painting for Outer Doors

Color Coating Aluminium Coil PVDF Painting for Outer Doors

6.    Package and shipping of Color Coating Aluminium Coil PVDF Painting for Outer Doors

eye to wall

eye to the wall

with wood pallet  (wooded case also available)

 

7.    FAQ

1) What is the delivery time?

Dpends 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 Aluminum ingot lot.

3) What market do you mainly sell to?

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


Q:What are the thermal expansion properties of aluminum coils?
The dimensions of aluminum coils change with temperature variations, which is known as their thermal expansion properties. Aluminum has a relatively high coefficient of thermal expansion, causing it to expand and contract more than other materials when exposed to temperature changes. The coefficient of thermal expansion for aluminum is approximately 22.2 x 10^-6 per degree Celsius. This means that for every degree increase in temperature, the length, width, and thickness of the aluminum coils will increase by around 22.2 parts per million. Conversely, when the temperature decreases, the coils will contract accordingly. These thermal expansion properties have significant implications in various applications that involve the use of aluminum coils. For instance, in heating and cooling systems, it is crucial to carefully consider the expansion and contraction of aluminum coils caused by temperature changes to ensure proper functioning and prevent damage. Likewise, in construction, where aluminum coils are commonly used for roofing and cladding, understanding their thermal expansion properties is vital to avoid structural issues and maintain the building's integrity. It is worth noting that the coefficient of thermal expansion may slightly differ depending on the specific aluminum alloy used in the coils. Furthermore, factors like coil thickness and shape can also affect the thermal expansion behavior. Therefore, when working with aluminum coils, it is advisable to refer to the material specifications or seek guidance from experts to accurately determine the thermal expansion properties and incorporate them into the design and application processes.
Q:What is the cost-effectiveness of using aluminum coils compared to other materials?
The cost-effectiveness of using aluminum coils compared to other materials is generally favorable. Aluminum coils are lightweight, durable, and corrosion-resistant, which reduces maintenance and replacement costs. They also have excellent heat transfer properties, leading to energy efficiency and cost savings in heating and cooling systems. Additionally, aluminum is a widely available and recyclable material, lowering the overall cost and environmental impact.
Q:I am writing a science-fiction story, and I am planning on making Aluminum this ultra-valuable element (Which adds irony - Aluminum is the third most abundant element on Earth!) Even if ol' atomic no. 13 is as common throughout the universe as it is on Earth, I can bring up 'multiverse' to get away with it. I think it'd still be nice to know.
Interesting, the aluminum must flow? Aluminum is not as common as other elements. It is not readily produced in the cores of stars through the alpha-capture process (which produces things like carbon, oxygen, neon, magnesium, silicon, etc.). This means it is only produced via supernova explosions. The table in Wikipedia (see link below) will give you an idea of the relative abundance to other elements. (Notice that magnesium and silicon, which are before and after aluminum, are nearly 100 times more abundant). As a fellow, Sci-Fi enthusiast, I'd remind you to make you're story believable. If you decide that your universe won't have supernovae, remember that would mean there would be no iron, gold, uranium, etc. My answer has been long enough, but I'm sure you have an idea why aluminum is so abundant on the Earth's crust so I'll stop here.
Q:Can aluminum coils be used in the production of heat exchangers?
Yes, aluminum coils can be used in the production of heat exchangers. Aluminum is a popular choice for heat exchangers due to its excellent thermal conductivity, which allows for efficient heat transfer. Additionally, aluminum is lightweight and corrosion-resistant, making it a durable and long-lasting option for heat exchanger applications. The use of aluminum coils in heat exchangers is common in various industries, including HVAC, refrigeration, automotive, and aerospace.
Q:How are aluminum coils tested for surface cleanliness?
To ensure that aluminum coils meet the required standards, various methods and techniques are employed to test their surface cleanliness. One commonly used method is the water break test, where a clean water droplet is placed on the coil's surface. If the water spreads out evenly and forms a continuous film without beading or breaking, it indicates that the surface is clean and devoid of any contaminants. Another approach involves the solvent wipe test, where a wipe soaked in solvent is gently rubbed on the coil's surface. The wipe is then examined for any dirt or residue, indicating the presence of contaminants on the surface. Furthermore, surface energy measurement is carried out to assess the cleanliness of aluminum coils. This entails using a contact angle measurement device to measure the coil's surface energy. A high surface energy suggests a clean surface, while a low surface energy indicates the presence of contaminants. Moreover, visual inspection is commonly employed to detect any visible dirt, oil, or other foreign substances on the coil's surface. This can be done using a magnifying glass or under specific lighting conditions to ensure a thorough examination. In conclusion, a combination of these methods is utilized to evaluate the cleanliness of aluminum coils, ensuring that they are free from contaminants and suitable for further processing or use in various industries.
Q:What are the potential environmental impacts of aluminum coil production?
The potential environmental impacts of aluminum coil production include deforestation due to the extraction of bauxite, water pollution from the chemicals used in the refining process, air pollution from the release of greenhouse gases during smelting, and energy consumption, as aluminum production requires a significant amount of electricity. Additionally, the disposal of waste materials and by-products can contribute to soil contamination if not managed properly.
Q:What are the common surface finishes for aluminum coils in the automotive industry?
Aluminum coils are extensively utilized in the automotive sector for various purposes due to their lightweight, high strength, and resistance to corrosion. To safeguard them from environmental elements and improve their appearance, aluminum coils in the automotive industry often undergo surface treatments. Anodizing is one of the most prevalent surface treatments for aluminum coils in the automotive industry. It is an electrochemical process that forms a thin protective layer on the surface of the aluminum coil. This treatment not only offers excellent corrosion resistance but also allows for customization of colors, making it a popular choice for automotive applications. Anodized aluminum coils can be found in a variety of colors and finishes, adding aesthetic appeal to vehicles. Another commonly employed surface treatment for aluminum coils in the automotive industry is powder coating. This technique involves applying dry powder paint onto the aluminum coil's surface and then curing it under heat to create a durable and long-lasting finish. Powder coating provides exceptional resistance to chipping, scratching, and fading, making it ideal for automotive components exposed to harsh conditions that require high durability. Moreover, powder coating offers a wide range of color options, enabling manufacturers to achieve the desired aesthetic appearance. Additionally, aluminum coils in the automotive industry may undergo other surface treatments like laminating, painting, or polishing, depending on specific application requirements. Laminating involves bonding a thin protective film onto the surface of the aluminum coil to provide additional protection against abrasion and chemical exposure. Painting entails the application of liquid paint onto the aluminum coil's surface, allowing for customization and protection against corrosion. Polishing, on the other hand, is a mechanical process that enhances the surface smoothness and appearance of the aluminum coil, resulting in a reflective and glossy finish. To summarize, the automotive industry commonly employs surface treatments such as anodizing, powder coating, laminating, painting, and polishing for aluminum coils. These treatments not only enhance the appearance of the aluminum coils but also provide protection against corrosion, abrasion, and other environmental factors, making them indispensable in the manufacturing of automotive components.
Q:I want to roll aluminum rolls and operate the machine for more than three years
According to the "Regulations" the relevant provisions of the labor insurance ability of the level of disability identification to enjoy treatment of inductrial injury: (1) medical expenses by the unit in full advance;
Q:How do aluminum coils perform in extreme temperature conditions?
Aluminum coils generally perform well in extreme temperature conditions due to their high thermal conductivity and low thermal expansion. They can efficiently transfer heat and are resistant to warping or cracking, making them suitable for various applications in extreme temperatures.
Q:What are the different mechanical properties of aluminum coils?
Aluminum coils possess various mechanical properties that make them highly desirable for a wide range of applications. Some of the key mechanical properties of aluminum coils include: 1. Strength: Aluminum coils exhibit impressive strength, making them suitable for structural applications. The strength of aluminum can be further enhanced through alloying or heat treatment processes. 2. Ductility: Aluminum coils are highly ductile, allowing for easy forming and shaping. This property enables the production of complex shapes and intricate designs without compromising the material's integrity. 3. Lightweight: Aluminum is renowned for its low density, making it one of the lightest metals available. This property makes aluminum coils ideal for applications where weight reduction is crucial, such as in aerospace and automotive industries. 4. Corrosion resistance: Aluminum has natural corrosion resistance, forming a protective oxide layer that prevents further oxidation. This property makes aluminum coils suitable for outdoor and marine environments, as they can withstand harsh conditions and reduce maintenance requirements. 5. Conductivity: Aluminum is an excellent conductor of both heat and electricity. This property makes aluminum coils ideal for applications that require efficient heat transfer, such as in heat exchangers and electrical wiring. 6. Machinability: Aluminum coils are relatively easy to machine due to their low melting point and excellent chip formation. This property allows for high-speed machining operations, resulting in reduced production time and costs. 7. Weldability: Aluminum coils can be easily welded using various techniques, such as TIG (Tungsten Inert Gas) or MIG (Metal Inert Gas) welding. This property enables the fabrication of complex structures and the joining of aluminum components. 8. Fatigue resistance: Aluminum exhibits excellent fatigue resistance, allowing it to withstand repeated stress cycles without failure. This property makes aluminum coils suitable for applications subjected to cyclic loading, such as in automotive components or structures exposed to wind or waves. Overall, the unique combination of mechanical properties possessed by aluminum coils, including strength, ductility, lightweight, corrosion resistance, conductivity, machinability, weldability, and fatigue resistance, makes them a versatile material choice for a wide range of industries and applications.

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