Color Coated Aluminium Sheet for Outer Wall Decoration

Color Coated Aluminium Sheet for Outer Wall Decoration

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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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Specification

Grade:

1000 Series,3000 Series

Surface Treatment:

Color Coated

Shape:

Square

Temper:

T3-T8

Application:

Decorations

1. Specification of Color Coated Aluminium Sheet for Outer Wall Decoration

EQUIPMENT	Double coating double baking;
CAPACITY	5000Mt/week
SIZE	Thickness 0.18mm—2mm, width 40mm—1250mm
PAINT THICKNESS	Top:18--25um, back:5-7um
COIL WGT	3Mt - 8Mt
COIL ID	φ508mm,φ610mm
SURFACE PAINT	EP, PE, HDP, SMP, PVDF
COLOR SERIES	RAL color number series

2. Application of Color Coated Aluminium Sheet for Outer Wall Decoration

(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 Coated Aluminium Sheet for Outer Wall Decoration

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

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 Coated Aluminium Sheet for Outer Wall Decoration

Color Coated Aluminium Sheet for Outer Wall Decoration

6. Package and shipping of Color Coated Aluminium Sheet for Outer Wall Decoration

First, plastic cloth with drying agent inside; Second, Pearl Wool ; Third, wooden cases with dry agent , fumigation wooden pallets, aluminum surface could cover blue PVC film

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: This question asks for methods to guarantee that the edges of installed aluminum sheets remain straight and smooth.: <p>To ensure that the edges of aluminum sheets are straight and smooth after installation, follow these steps: 1. Use high-quality aluminum sheets that are free from warping or defects. 2. Measure and cut the sheets accurately to avoid any discrepancies. 3. Use a sharp, clean cutting tool to prevent jagged edges. 4. Smooth out any rough edges with a file or sandpaper. 5. Install the sheets with precision, ensuring they are aligned properly. 6. Use appropriate fasteners and brackets to secure the sheets without causing any distortion. 7. Regularly inspect and maintain the sheets to address any issues promptly. By following these steps, you can maintain the straightness and smoothness of aluminum sheet edges after installation.</p>

Q: What is the weight of a standard aluminum sheet?: The weight of a standard aluminum sheet can vary depending on its thickness, dimensions, and grade. On average, a standard aluminum sheet weighs around 2.7 grams per cubic centimeter (g/cm³).

Q: What's the maximum size of 3 mm thick aluminum sheet?: See tolerance taggingIf there is no tolerance, see the accuracy level of the workpiece and check the tolerance listA 3-4 mm deviation is acceptable if the magnitude is not noted and is of no importanceThat is, the 3.5mm is OK, if the lower accuracy is generally 2.95

Q: Can aluminum sheets be an alternative to plastic in certain applications?: Yes, aluminum sheets can be a viable alternative to plastic in certain applications. Aluminum is a lightweight and durable material that offers numerous advantages over plastic. It has excellent strength-to-weight ratio, making it suitable for applications that require resistance to impact or heavy loads. Additionally, aluminum is highly resistant to corrosion, which makes it ideal for outdoor or marine applications where plastic may degrade over time. Moreover, aluminum is a highly recyclable material, which aligns with the growing emphasis on sustainability and reducing waste. Unlike plastic, which can take hundreds of years to decompose, aluminum can be recycled indefinitely without losing its properties. This makes aluminum a more environmentally friendly choice for applications where plastic waste is a concern. Furthermore, aluminum sheets offer superior thermal conductivity compared to plastic, making them suitable for applications that require heat dissipation or thermal management. This makes aluminum a preferred choice for products such as heat sinks or electronic enclosures. However, it's important to note that aluminum sheets may not always be the best alternative to plastic. Plastic offers certain advantages such as being lightweight, flexible, and cost-effective, which makes it more suitable for applications that require these properties. Additionally, plastic can be molded into complex shapes, making it preferable for certain designs. In conclusion, aluminum sheets can be an effective alternative to plastic in certain applications where their strength, durability, corrosion resistance, recyclability, or thermal conductivity are advantageous. However, the choice between aluminum and plastic ultimately depends on the specific requirements and constraints of the application at hand.

Q: What are the different methods of heat treating aluminum sheet?: Aluminum sheet can undergo various heat treatment methods, each serving a specific purpose and achieving desired outcomes. Some commonly used methods include the following: 1. Solution Heat Treatment: The aluminum sheet is heated to a specific temperature, typically ranging from 900-1000°F (480-540°C), and kept at that temperature for a designated duration. This process aids in dissolving any soluble alloying elements present in the aluminum, resulting in a more uniform structure. 2. Quenching: Following the solution heat treatment, the aluminum sheet is rapidly cooled by immersing it in water, oil, or air. This rapid cooling helps retain the desired microstructure and properties, such as increased strength and hardness. 3. Aging: After quenching, the aluminum sheet undergoes an aging process. It is heated to a lower temperature, typically between 250-450°F (120-230°C), and maintained at that temperature for a specific period. This allows for the precipitation of fine particles within the aluminum, further enhancing its strength and hardness. 4. Precipitation Hardening: This method is specifically employed for certain aluminum alloys, such as the 2000 and 7000 series, which respond well to precipitation hardening. It involves a combination of solution heat treatment, quenching, and aging, resulting in a highly strengthened and durable aluminum sheet. 5. Annealing: Annealing is a heat treatment process that aims to soften the aluminum sheet and relieve any internal stresses. The sheet is heated to a specific temperature, typically around 600-700°F (315-370°C), and then slowly cooled. This enhances the formability and machinability of the aluminum. 6. Stress Relieving: Similar to annealing, stress relieving is specifically used to reduce residual stresses in the aluminum sheet after fabrication. The sheet is heated to a temperature below its annealing temperature and then slowly cooled. The choice of heat treatment method for aluminum sheet depends on the desired properties, alloy composition, and intended application. Each method offers unique advantages and can significantly enhance the mechanical and physical properties of the aluminum sheet.

Q: Are the aluminum sheets suitable for architectural applications?: Indeed, architectural applications greatly benefit from the use of aluminum sheets. This versatile material offers a plethora of advantages for architectural projects. It boasts a lightweight composition, durability, and resistance against corrosion. Consequently, it proves itself ideal for exterior applications. The malleability of aluminum sheets allows architects to effortlessly shape, form, and manipulate them, giving rise to intricate designs and structures that bring their creative visions to life. Moreover, aluminum showcases its sustainability as a 100% recyclable material, thereby minimizing the environmental impact of architectural projects. In conclusion, the utilization of aluminum sheets in architectural applications ensures both aesthetic appeal and functional durability, making it the preferred choice for architects and designers.

Q: This question asks for a list of the various types of profiles that can be made from aluminum sheets.: <p>Aluminum sheet profiles come in a variety of types, suitable for different applications. Some common types include: 1. Flat Sheets: These are simple, flat aluminum sheets with no bends or curves. 2. Corrugated Sheets: These have a wavy or ridged pattern, providing strength while allowing flexibility. 3. Perforated Sheets: These have holes punched in a regular pattern, useful for ventilation or decorative purposes. 4. Embossed Sheets: These have a raised pattern on the surface, often used for aesthetic or functional reasons. 5. Extruded Profiles: These are complex shapes created by pushing aluminum through a die, suitable for structural applications. 6. Expanded Metal Sheets: These have a diamond-shaped pattern, providing strength and rigidity. 7. Checkered Plates: These have a raised, non-slip pattern, often used for flooring. Each type has its own specific uses and properties, and the choice depends on the requirements of the project.</p>

Q: Can aluminum sheet be used for solar panels?: Absolutely! When it comes to solar panels, aluminum sheet is a fantastic choice. Thanks to its remarkable strength, durability, and lightweight nature, aluminum is a widely favored material for constructing these panels. Its versatility shines through as it serves as both the frame and mounting structure, providing unparalleled support and stability. Moreover, its exceptional resistance to corrosion is a crucial factor given the panels' exposure to the elements. On top of all that, aluminum's highly conductive properties allow for efficient electricity transfer from the solar cells within the panel. All in all, incorporating aluminum sheet into solar panel construction significantly enhances their performance, longevity, and overall efficiency.

Q: Are aluminum sheets suitable for electronic components?: Yes, aluminum sheets are suitable for electronic components. Aluminum is commonly used in the production of electronic components due to its excellent conductive properties, lightweight nature, and high thermal conductivity. It is often utilized in circuit boards, heat sinks, and enclosures for electronic devices.

Q: What are the different methods for cutting aluminum sheets?: Aluminum sheets can be cut using various methods that are commonly employed. 1. Shearing: To make a straight cut through the aluminum sheet, a sharp blade is used in this method. Shearing is typically used for thinner sheets and results in clean and straight cuts. 2. Sawing: Another method for cutting aluminum sheets is sawing. It involves the use of a saw blade with small teeth to cut through the material. Sawing can be done manually or with the assistance of power tools like band saws or circular saws. 3. CNC Machining: For highly precise cutting of aluminum sheets, Computer Numerical Control (CNC) machining is employed. This method utilizes a computer-controlled machine that follows programmed instructions to achieve the desired shape. CNC machines are capable of creating complex cuts and shapes with great accuracy. 4. Laser Cutting: A non-contact method, laser cutting, employs a high-powered laser to cut through aluminum sheets. The laser beam melts or vaporizes the aluminum, resulting in a clean and precise cut. Laser cutting is commonly used for intricate designs and offers a high level of precision. 5. Waterjet Cutting: Waterjet cutting involves the use of a high-pressure jet of water mixed with an abrasive substance to cut through aluminum sheets. This method is versatile and can be used for various materials and thicknesses. It produces clean cuts without generating heat, making it suitable for heat-sensitive materials as well. 6. Plasma Cutting: Plasma cutting utilizes a high-temperature plasma arc to cut through aluminum sheets. The plasma arc melts the metal and blows away the molten material, creating the desired cut. This method is commonly used for thicker aluminum sheets and can be done manually or with the assistance of CNC machines. These different cutting methods offer varied precision levels, speeds, and suitability for different sheet thicknesses and designs. The choice of cutting method depends on factors such as the desired cut quality, aluminum sheet thickness, and specific project requirements.

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