Plate Type Copper Tube Aluminium Fin Coil

Plate Type Copper Tube Aluminium Fin Coil System 1

Plate Type Copper Tube Aluminium Fin Coil

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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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2.Main Features of Aluminium Alloy Coil for Bus Stop ：

Good Corrosion Resistance

Good Machinability

High Quality
Competitive Price

3. Aluminium Alloy Coil for Bus Stop Images:

Plate Type Copper Tube Aluminium Fin Coil

4. Aluminium Alloy Coil for Bus Stop Specification:

Alloy No.	Thickness (mm)	Width (mm)	Length (mm)	Temper
A1050,A1060, A1070,A1100	0.2-100	20-2200	20-8000	O,H12,H22,H14,H16,H18, H24,H26,etc
3A21,A3003,A3105,A3004	0.2-100	20-2200	20-8000	O,H14,H18,H24,etc
A5052 ,A5005,A5083,A5754	0.2-100	20-2200	20-8000	O,H18,H24,H32,H34,H111,H112 ,etc
A6061,A6082,A6063	0.2-200	20-2200	20-8000	T4,T6, T651,etc
A8011	0.2-100	20-2200	20-8000	O,H12,H22,H14,H16,H18,H24,H26, etc

5.FAQ

Q1.How long have you been in this product?
A1:More than 10 years.

Q2. What's the minium quantity(MOQ)?
A2. 5 Metric tons

Q3. How long is shipping time?
A3. 7 (ready-made products)-25 days(OEM)

Q4. How do you guarantee the quality?
A4. 1. Cooperating and Exchaning experience with sevral quoted aluminum companies
2. Japanese and Swiss production line and skilled works (regular training and testing)
3. more than 10 years production experience.

Q5. Do you have after sale service?
A5. Yes. Any quality problem occurs within one year, pls take photoes,we will be responsible.

Q:Hi i need to know what will happen to the impact strength of aluminum 2024 reinforced with Silicon carbide is treated to cryogenic temperature (nearly -200C). Will impact strength increase or decrease. Also will the impact strength vary with respect to the percentage of Silicon carbide.: Aluminum 2024 doesn't have a transition temperature, it absorbs about 18n-m impact strength (via charpy tests I ran three weeks ago at my College course). This was constant between -150?C to +150°C (liquid nitrogen to a furnace). This excerpt from wiki: Cutting tools In 1982 at the Oak Ridge National Laboratories, George Wei, Terry Tiegs, and Paul Becher discovered a composite of aluminium oxide and silicon carbide whiskers. This material proved to be exceptionally strong. Development of this laboratory-produced composite to a commercial product took only three years. In 1985, the first commercial cutting tools made from this alumina and silicon carbide whisker-reinforced composite were introduced by the Advanced Composite Materials Corporation (ACMC) and Greenleaf Corporation. Leads me to believe it depends on how you mix the material in would make a difference. Silicon Carbide and aluminum make very strong tools, but would make it more brittle. The ceramic in a metallic crystal lattice (metal is a crystalline structure) would allow more voids to coalesce leading to a brittle fracture, but the initial strength would be improved because of substitution dislocations in the crystal structure (it would be more rigid, stronger, but more prone to sudden failure). Silicon carbide has low thermal expansion coefficient compared to aluminum also so when it gets really cold the aluminum would contract around the particles increasing the strength, but again, reducing ductility and causing fractures to occur more rapidly. Anyways, very interesting, you should do a bit of research on your own after this as I gave you some good places to work from (and I'm sure plenty of words to look up ;D )

Q:How do aluminum coils perform under high-temperature applications?: Aluminum coils are renowned for their exceptional resistance to heat and their ability to perform well in applications that involve high temperatures. With a melting point of approximately 660 degrees Celsius (1220 degrees Fahrenheit), aluminum coils can endure and function efficiently even when exposed to elevated temperatures. The high thermal conductivity of aluminum allows for the rapid transfer of heat away from the coil, preventing overheating and potential damage. This characteristic enables aluminum coils to effectively dissipate heat, resulting in improved thermal management and enhanced performance in environments with high temperatures. In addition, aluminum coils possess good corrosion resistance, which is crucial in situations where heat and moisture are present. The naturally occurring oxide layer on the surface of aluminum acts as a protective barrier against corrosion, ensuring the durability and reliability of the coil, even in challenging conditions. Furthermore, aluminum coils are lightweight and highly malleable, making them easy to install and integrate into a variety of systems and applications. This versatility renders them suitable for a wide range of high-temperature applications, including heat exchangers, automotive components, HVAC systems, and electrical devices. However, it is important to note that subjecting aluminum to extreme temperatures beyond its melting point can cause the material to weaken or deform. Therefore, it is essential to carefully consider the specific temperature requirements and limitations of the aluminum coil before implementing it in a high-temperature application.

Q:What is the impact of alloy purity on the performance of aluminum coils?: The purity of alloys used in aluminum coils has a significant impact on their performance. Alloy purity refers to the absence of impurities or contaminants within the aluminum material. One crucial factor affected by alloy purity is the mechanical strength of the aluminum coils. Impurities in the alloy can weaken the overall structure and reduce its tensile strength. Higher purity alloys tend to have better mechanical properties, allowing the coils to withstand higher loads and stresses without deformation or failure. Alloy purity also influences the electrical conductivity of aluminum coils. Impurities such as iron, copper, or silicon can increase the electrical resistance, leading to losses in electrical energy during transmission. Higher purity alloys have lower electrical resistivity, ensuring efficient power transmission and minimizing energy losses. Another critical aspect influenced by alloy purity is the corrosion resistance of aluminum coils. Impurities can act as catalysts for corrosion, reducing the coil's lifespan and durability. Higher purity alloys exhibit improved resistance to corrosion, making them suitable for various applications, including those in corrosive environments. Additionally, the thermal conductivity of aluminum coils is affected by alloy purity. Impurities hinder the efficient transfer of heat, reducing the overall thermal performance. Higher purity alloys have better thermal conductivity, allowing for effective heat dissipation and improved thermal management in applications such as heat exchangers or cooling systems. In conclusion, the impact of alloy purity on the performance of aluminum coils is significant. Higher purity alloys offer improved mechanical strength, electrical conductivity, corrosion resistance, and thermal conductivity. Thus, selecting alloys with higher purity levels is crucial for ensuring optimal performance and longevity of aluminum coils in various applications.

Q:Some manufactures (Kia, Hundai) use Iron blockswhileOther manufactures (Nissan, Chevy, ect.) use Aluminum blocks*****Is the point of using Iron blocks to increase long-term durability or temperature endurance??ORIs the use of Iron blocks simply an older, simpler technology (as compared to using Aluminum), the manufacture of which costs less money??And you would think that Aluminum weight savings would transer to better MPG, but the Kia gets very comparable mileage anyway.Thank you: The latter points were right. Iron blocks are heavier, although much cheaper to make. Aluminum ones are significantly lighter and handle heat better, but it is a bit more expensive to make them.

Q:What are the different color options for anodized aluminum coils?: The different color options for anodized aluminum coils include silver, gold, bronze, black, blue, red, green, and various shades of gray.

Q:Why the end of the aluminum coil will have a yellow spot?: The reason may be that the manufacturer is not cleaned, and must be carefully cleaned before coating, or there may be paint fall off phenomenon.

Q:What are the potential challenges in recycling aluminum coils?: Some potential challenges in recycling aluminum coils include the need for proper sorting and separation of different alloys, the removal of any non-aluminum components or contaminants, and the energy-intensive process of melting and reforming the coils. Additionally, transportation and logistics can pose challenges due to the bulkiness and weight of the coils.

Q:I need to write as many interesting facts as i can about aluminum for a thing for school, any help?: HERE'S ONE (very very late -- ) The point, APEX, Capstone of the Washington Monument was made of Aluminum!

Q:How do you store and transport aluminum coils?: Aluminum coils are typically stored and transported using a few different methods to ensure their safety and prevent damage. When it comes to storage, it is essential to keep the coils in a dry, clean, and well-ventilated area to avoid any moisture-related issues or corrosion. Ideally, the storage area should have a controlled temperature to prevent any extreme fluctuations that could affect the quality of the aluminum. To protect the coils from physical damage, they should be stored horizontally or vertically on a stable and level surface. It is crucial to avoid stacking them too high to prevent any potential collapse and ensure easy access for inspection or transportation purposes. Additionally, placing them on wooden pallets or racks with proper spacing between each coil can provide extra stability and protection. When it comes to transporting aluminum coils, there are several options available depending on the quantity, distance, and mode of transportation. For short distances or smaller quantities, hand trucks or forklifts can be used to move the coils onto a flatbed truck or a van. It is important to secure the coils properly using straps or bands to prevent any movement during transit. For larger quantities or longer distances, the coils can be transported using specialized coil carriers. These carriers are designed to securely hold multiple coils in an organized manner, limiting any potential damage caused by vibration or shifting during transportation. They are typically equipped with side rails and restraining bars to secure the coils in place. Regardless of the method used for transportation, it is crucial to handle the aluminum coils with care and ensure they are adequately protected. Regular inspections should be conducted before, during, and after transportation to identify any signs of damage or issues that could compromise the integrity of the coils. By following these guidelines, the storage and transportation of aluminum coils can be done efficiently and safely.

Q:Are aluminum coils suitable for architectural roofing systems?: Architectural roofing systems can indeed make use of aluminum coils. The popularity of aluminum as a roofing material stems from its many advantages. To begin with, aluminum is lightweight, making it easy to handle during installation and decreasing the burden on the building's structure. Furthermore, aluminum is highly durable and resistant to corrosion, ensuring that it will last for a long time as a roofing option. Its exceptional thermal properties are worth noting as well, as it can reflect heat and lead to reduced energy consumption. Another advantage is the ease with which aluminum coils can be molded and shaped into various profiles and designs, allowing for flexibility in architectural styles. Lastly, aluminum is an environmentally friendly choice for roofing systems, as it is both recyclable and sustainable. In conclusion, aluminum coils are a practical and suitable choice for architectural roofing systems, offering durability, versatility, and energy efficiency.

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