• Continuous Casting Aluminium Coils for Outer Building System 1
  • Continuous Casting Aluminium Coils for Outer Building System 2
  • Continuous Casting Aluminium Coils for Outer Building System 3
Continuous Casting Aluminium Coils for Outer Building

Continuous Casting Aluminium Coils for Outer Building

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Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
5 m.t.
Supply Capability:
20000 m.t./month

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Item specifice

Grade:
1000 Series
Surface Treatment:
Mill Finish
Shape:
Flat
Temper:
O-H112
Application:
Decorations

1.Structure of Continuous Casting Aluminium Coils for Outer Building

Continuous Casting Aluminium Coils for Outer Building is one semi-finished aluminium material. This strip can be rolled down to aluminium coil,sheet,circle ect.  The alloy AA1050 is widly used in building, industry ect. Its weight is much lower than steel. So many customers choosed aluminium material instead of steel.

2. Main features of Continuous Casting Aluminium Coils for Outer Building

a.Competitive price---We have our own mills and can produce mill finished aluminium coils, so we can control the production cost better.

b.Professional after-sale service---We have more than 15 years exportation experience and you need not worry about the exporation problems.

c.Fast delivery time---We can control the delivery time within 35 days.


3. Image

Continuous Casting Aluminium Coils for Outer Building

Continuous Casting Aluminium Coils for Outer Building

Continuous Casting Aluminium Coils for Outer Building



4. Product Specification

AlloyTemperThicknessWidthWeight
AA1050H140.2MM-3MM1000MM-1500MMAbout 2.5 tons


5.FAQ:

What is the quality standard?

---Usually our standard is GB3880-2006

What is the largest width?

---It is 2300mm

What is the MOQ?

---Usually we can accept 80 tons.


Q:What is the typical wear resistance of aluminum sheets?
The typical wear resistance of aluminum sheets can vary depending on factors such as alloy composition, tempering, and surface treatment. However, in general, aluminum sheets have relatively low wear resistance compared to materials like steel or titanium. They are more prone to scratching, abrasion, and surface damage. To enhance wear resistance, additional coatings or treatments can be applied to aluminum sheets.
Q:A copper-aluminum alloy has an aluminum concentration of (5.19x10^2) kg/m3.If the densities of aluminum and copper are 2.71 and 8.94 g/cm3, respectively, what is the concentration of aluminum in wt%?Could someone please help wit this question, im lost
Copper Aluminum Alloy
Q:What is the weight of aluminum sheets?
The weight of aluminum sheets may differ based on the thickness and dimensions of the sheet. In general, thin sheets can weigh approximately 2.7 grams per square centimeter (g/cm^2), while thicker sheets can weigh around 6.9 g/cm^2. Nevertheless, it is crucial to acknowledge that these figures are approximate and may slightly fluctuate depending on the specific alloy and manufacturing technique employed. Consequently, it is advisable to seek precise weight specifications from the manufacturer or supplier when dealing with a specific aluminum sheet.
Q:What are the common sizes of aluminum sheets?
The industry and application determine the common sizes of aluminum sheets. However, there are several standard sizes that are readily available. For general fabrication and construction, aluminum sheets typically range in thickness from 0.020 inches to 0.125 inches. These sheets are commonly found in sizes such as 4 feet by 8 feet, 4 feet by 10 feet, and 5 feet by 10 feet. In the automotive industry, aluminum sheets are frequently used for body panels and structural components. The sizes used in this sector can vary from 0.040 inches to 0.125 inches in thickness, with dimensions depending on the specific application or vehicle model. When it comes to aerospace applications, aluminum sheets are usually thinner and smaller. These sheets can be anywhere from 0.010 inches to 0.080 inches in thickness, with dimensions generally being smaller compared to other industries. It's important to note that while these sizes are common, custom sizes can also be manufactured to meet specific project requirements. Furthermore, specialized industries may have unique size requirements that differ from the general standards. Therefore, it is always advisable to consult suppliers or manufacturers to determine the most suitable size for a particular application.
Q:What are the different methods of surface protection for aluminum sheet?
Some of the different methods of surface protection for aluminum sheet include anodizing, powder coating, painting, and laminating. Anodizing involves creating a protective oxide layer on the surface of the aluminum, which provides corrosion resistance and enhances its appearance. Powder coating involves applying a dry powder coating to the aluminum sheet and then curing it through heat, creating a durable and protective finish. Painting is another method where a liquid paint is applied to the surface of the aluminum sheet, providing both protection and aesthetic appeal. Laminating involves bonding a protective film or sheet onto the surface of the aluminum, offering resistance against scratches, abrasion, and chemical damage. These methods help to preserve the quality and longevity of the aluminum sheet in various applications.
Q:Can aluminum sheet be used for reflective surfaces?
Yes, aluminum sheet can be used for reflective surfaces.
Q:How do aluminum sheets compare to other metals?
When comparing aluminum sheets to other metals, several advantages can be identified. Firstly, aluminum is known for its lightweight properties, making it an excellent option for industries that prioritize weight, such as aerospace. Moreover, aluminum exhibits exceptional resistance to corrosion, allowing it to endure exposure to moisture and chemicals without deterioration. As a result, aluminum sheets are suitable for outdoor use and in environments with high humidity or corrosive substances. Additionally, aluminum possesses excellent thermal and electrical conductivity, making it a popular choice for applications that require efficient heat dissipation or electrical conduction, including heat sinks and electrical enclosures. Furthermore, aluminum sheets can be easily manipulated and formed, providing versatility in various manufacturing processes. They can be effortlessly bent, cut, welded, and machined, making them highly adaptable to different design specifications. When considering cost, aluminum generally proves to be more affordable compared to other metals like steel or copper. This affordability makes it a cost-effective option for numerous industries, particularly for large-scale production or projects with budget constraints. However, it is vital to note that aluminum sheets may not be suitable for applications that demand high strength or extreme temperatures, as aluminum has lower strength and melting points in comparison to certain other metals. In such cases, metals such as steel or titanium may be more appropriate. In conclusion, aluminum sheets possess a combination of qualities, including lightweight properties, corrosion resistance, good conductivity, versatility, and affordability, which make them a preferred choice in many industries. Nevertheless, it is crucial to consider the specific requirements of a project or application to determine if aluminum sheets are the most suitable option or if another metal would be more appropriate.
Q:Are the aluminum sheets suitable for automotive applications?
Yes, aluminum sheets are suitable for automotive applications due to their lightweight, corrosion resistance, and high strength-to-weight ratio, making them ideal for improving fuel efficiency and performance in vehicles.
Q:What is the typical fatigue strength of aluminum sheets?
Aluminum sheets have the potential to vary in their typical fatigue strength due to factors such as alloy composition, thickness, manufacturing process, and surface treatment. However, when compared to other materials, aluminum sheets generally exhibit a relatively high fatigue strength. Aluminum alloys, particularly those utilized in aerospace and automotive applications, are renowned for their exceptional resistance to fatigue. The fatigue strength of aluminum sheets is commonly measured in terms of the stress level (in MPa) at which failure occurs after a specific number of cycles. For aluminum alloys commonly employed in structural applications, fatigue strength typically falls within the range of approximately 70 MPa to 150 MPa, contingent upon the specific alloy and thickness. It is important to acknowledge, however, that this range is not absolute and can exhibit significant variations based on the aforementioned factors. It is noteworthy that the fatigue strength of aluminum sheets can be considerably enhanced through various techniques such as heat treatment, alloying, and surface treatments like shot peening or anodizing. These processes have the ability to augment the fatigue life and enhance the overall performance of aluminum sheets under cyclic loading conditions. In conclusion, while the typical fatigue strength of aluminum sheets can be considered relatively high compared to other materials, it is subject to variation due to several factors. Optimal material selection, in conjunction with appropriate processing and surface treatments, can result in significant improvements to the fatigue performance of aluminum sheets.
Q:How do aluminum sheets perform in extreme temperatures?
Aluminum sheets generally perform well in extreme temperatures as they have a high melting point and excellent thermal conductivity. This allows them to resist deformation or structural changes under extreme heat or cold conditions. Additionally, aluminum has a low coefficient of expansion, which helps it maintain its shape and integrity under temperature fluctuations. Overall, aluminum sheets are known for their stability and reliability even in extreme temperature environments.

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