5052 Temper Ho 0.4mm 0.5mm 0.6mm Thick Aluminum Roll

5052 Temper Ho 0.4mm 0.5mm 0.6mm Thick Aluminum Roll

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Loading Port:: Shanghai

Payment Terms:: TT OR LC

Min Order Qty:: 5 m.t.

Supply Capability:: 6000 m.t./month

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Applications:

Aluminum foil roll is widely used in construction,decoration,hardware,

electric appliances,machinery and other industrial and civil purposes,

such as electronic capacitor,composite cooker,rice cooker,refrigerator,

computer casting,telecommunication,equipment,lamp shade,air conditioner,

cosmetics cover and so on.

Or it can be made as customers’ requirement.

Specifications

color aluminum coil
1000 series 1100 10160 1200
surface could be: Brushed, drawing, embossed, printing
color: red,

color aluminum coil

.Alloy type: 1050/1060/1100/1350

2.Temper: H16, H18, H22, H24

3.Thickness range: 0.1mm-4mm

4.Width range: 25mm-1600mm

5.Surface:finish: bright & smooth surface, without flow lines, slight oiled to avoid white rusting.

6.Quality material:totally free from such defefects as roll marks, edge damager, camber, white rust, oil patches, holes, break lines,

color aluminum coil

Name	color aluminum coil
Alloy or not	yes
Alloy	1100H16/18, 3003H24,3003H26,3005H26,8011,3004,3105,5005,etc.
Thickness	0.1-4mm
Width	≤1600mm
MOQ	5T
Coating finish	Brushed, drawing, embossed, printing
Color	As to code RAL
Surface	Embossed,Mill Finish,Coated,Brushed
Gloss	10-90%(EN ISO-2813:1994)
Total coating thick	PVDF27 ~35micron
Total coating thick	Polyester18~27micron(EN ISO-2360:1995)
Coating hardness	2H
Adhesion	5B (EN ISO-2409:1994)
Impact resistance	No cracking and peeling (A.S.T.M D2794-1993)
Flexibility (T-bend)	0T- 2T
MEK resistance	100
Certification	ISO9001:2000, CE, SGS
Coil's standard diameter	1100mm
Inner Diameter	405mm/505mm
Coil's standard weight	2000kgs

5052 Temper Ho 0.4mm 0.5mm 0.6mm Thick Aluminum Roll

Q:What are the potential applications of coil-laminated aluminum coils?: Coil-laminated aluminum coils have a wide range of potential applications in various industries. They can be used in the manufacturing of automotive parts, such as body panels and interior components, due to their lightweight yet durable nature. Additionally, they are suitable for building and construction purposes, including roofing, siding, and insulation, as they offer excellent corrosion resistance and thermal conductivity. Furthermore, coil-laminated aluminum coils find use in electrical industries for producing transformers, capacitors, and other electrical components due to their excellent electrical conductivity. Overall, their versatility and desirable properties make coil-laminated aluminum coils valuable in numerous applications across different sectors.

Q:How do aluminum coils compare to steel coils?: The characteristics of aluminum coils and steel coils distinguish them in terms of strength, weight, corrosion resistance, and cost. Strength-wise, steel coils generally exhibit a higher tensile strength compared to aluminum coils. This means that steel coils can endure greater stress and pressure without deforming or fracturing. Nonetheless, aluminum coils retain sufficient strength for various applications and can be reinforced or designed for specific purposes. Weight plays a significant role in the comparison between aluminum and steel coils. Aluminum is a lightweight metal, weighing approximately one-third of steel. This lightweight property grants aluminum coils an advantage in applications where reducing weight is crucial, such as in transportation industries or aerospace. Regarding corrosion resistance, aluminum coils surpass steel coils. Aluminum naturally develops a protective oxide layer that prevents further corrosion. Conversely, steel is prone to rust and necessitates additional coating or treatment to enhance its corrosion resistance. This makes aluminum coils the preferred choice in coastal or humid environments where corrosion poses a significant concern. Cost is another vital factor to consider. Aluminum coils often entail a higher initial cost than steel coils due to the elevated cost of raw materials and manufacturing processes. Nevertheless, the overall cost may fluctuate depending on variables like transportation, maintenance, and lifespan. Aluminum coils tend to have lower maintenance costs and longer lifespans due to their corrosion resistance, which can offset the initial investment in the long run. In conclusion, aluminum coils provide several advantages over steel coils, such as lower weight, superior corrosion resistance, and potential long-term cost savings. However, steel coils still boast higher tensile strength and may be the preferred choice in applications that require maximum strength or have a restricted budget. Ultimately, the selection between aluminum and steel coils hinges on the specific requirements and considerations of the intended application.

Q:Can aluminum coils be used in electrical busbars?: Yes, aluminum coils can be used in electrical busbars. Aluminum offers good conductivity, is lightweight, and cost-effective, making it suitable for use in busbars. However, proper insulation and connection techniques must be employed to address the higher thermal expansion and potential corrosion issues associated with aluminum.

Q:4. a) The inner diameter of a steel ring is 2.0000 cm, and the diameter of an aluminumdisk is 2.0100 cm. Both are at 430C. At what common temperature will the disk fitprecisely into the hole in the steel ring?b) If after the aluminum disk is fitted precisely into the hole the two metals are thetemperature is changed to 200 C, what is the stress in the steel ring?: Steel ring: - Inner diameter: 2.00 cm at 430-deg C - thermal expansion coefficient: 17.3e-6 = s Aluminum ring: - Outer diameter: 2.01 cm at 430-deg C - thermal expansion coefficient: 23.1e-6 = a a) The aluminum ring is too large. If they are both cooled, the aluminum ring will shrink at a faster rate, so at some cooler temperature, there will be a match. What we need: R_new = 2.01*(1+ a*dT) = 2.00*(1 + s*dT) 2.01 + (2.01*a)dT = 2.00 + (2.00*s)dT 0.01 = dT*(2*s - 2.01*a) dT = 0.01*e6/(2*17.3 - 2.01*23.1) = -8.5e2 (deg-C) = -850 (deg-C) Hmm, so we need a reduction in temperature by 850 deg. But we started at T-celsius = 430 = T-kelvin = 803. A reduction by 850 deg gives us -47 deg-K. But that's impossible! Either the coefficients of thermal expansion are extremely different at 430-C than at 20-C (quite possible) or this degree of accommodation is not possible. b) This cannot be answered, based on the impasse in a).

Q:Can aluminum coils be customized in terms of thickness?: Yes, aluminum coils can be customized in terms of thickness. The thickness of aluminum coils can be adjusted according to the specific requirements of a particular application. This customization is achieved through a process called aluminum coil slitting, where the original coil is cut into narrower coils of desired thickness. This allows for flexibility in meeting various needs and specifications of different industries.

Q:What are the potential applications of anodized aluminum coils?: Anodized aluminum coils have a wide range of potential applications due to their unique characteristics. They are commonly used in architectural and construction projects for cladding, roofing, and facades, as their anodized coating provides excellent durability, corrosion resistance, and aesthetic appeal. Other potential applications include electronic casings, automotive trim, signage, cookware, and industrial components, where the anodized coating offers protection against wear, abrasion, and chemicals. Additionally, the ability to dye the anodized coating enables customization and allows for decorative uses in jewelry, artwork, and consumer goods.

Q:i want to save some money on my electricity bill, and i heard that aluminum foil rejects the heat that goes through the windows, also does it work with the cold?: If this is a house then it is your determination, if this is an condominium then you will greater advantageous verify with the administrative. maximum construction do no longer decide for aluminum foil on the residing house windows because it degrades the appearance of the residing house/condominium.

Q:I've heard many times that it's unhealthy to store or cook food in aluminum, due to leaching, but will this apply to handling aluminum. Also, I heard that most aluminum is coated with a layer of something, to prevent oxidation; is this true?: aluminum is very biologically unavailable- most forms of aluminium you will come in contact with wont really react with your body. And yes aluminium is actually coated in a thin layer of its own oxide (aluminium oxide) to prevent the entire thing rusting. If it was unsafe to use alot more people would know about it. You are totally fine to grill things in foil and to put foil covered things in the oven!

Q:How are aluminum coils protected against UV degradation?: Aluminum coils are often safeguarded against UV degradation by applying protective coatings or treatments, which act as a barrier between the aluminum surface and harmful UV rays from the sun. These protective coatings, like polyvinylidene fluoride (PVDF) or polyester coatings, are specifically formulated to resist UV radiation and create a durable layer that shields the aluminum coil from prolonged sun exposure. Another method of protection is anodizing, an electrochemical process that creates a protective oxide layer on the aluminum surface. This oxide layer acts as a barrier against UV rays, preventing them from reaching the underlying metal. Anodized aluminum coils are well-known for their excellent resistance to UV degradation and are commonly used in outdoor applications that require long-lasting durability. In addition to these coatings and treatments, aluminum coils can be designed with specific alloy compositions that enhance their resistance to UV degradation. Incorporating certain alloy elements like magnesium and manganese can improve the natural ability of aluminum to withstand UV radiation, increasing the overall durability and UV resistance of the coil. In conclusion, protecting aluminum coils against UV degradation is crucial when they are exposed to sunlight. By utilizing protective coatings, anodizing, or selecting appropriate alloy compositions, manufacturers can effectively safeguard the coils, ensuring their long-term performance and durability even in challenging outdoor environments.

Q:What is the thermal conductivity of aluminum coils?: The thermal conductivity of aluminum coils is relatively high compared to other metals. Aluminum has a thermal conductivity of around 237 W/m·K, which means it is a good conductor of heat. This property makes aluminum coils suitable for applications where efficient heat transfer is required, such as in heat exchangers or air conditioning systems. The high thermal conductivity of aluminum allows for quick and effective heat dissipation, ensuring optimal performance and energy efficiency in various industrial and residential settings.

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