Rheem Aluminum Evaporator Coil

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FAQ

Aluminum coils are commonly used in packaging as they can be easily molded into different shapes and sizes. They are used to create various packaging products such as cans, containers, and foils. The coils are converted into sheets or strips, which are then formed into the desired packaging structures through processes like rolling, cutting, and shaping. The lightweight and corrosion-resistant nature of aluminum make it an ideal choice for packaging applications, ensuring the protection and preservation of various products.

94 f150. have the stock wheels which are weathered and dull. whats a good way to bring the shine back? some of the original coating is there ,most is gone. tried mothers aluminum wheel polish,does nothing. is it wise to use a wire wheel in a drill to get down to just the aluminum? the wheels are those with the center plastic cap with holes around the outer edge.thanks for any info

Get a couple of those Mothers power balls .If the clear coat is coming off Then dirt is embedded in the rim The best way is to have them polished by a pro .If thats not the route you want to go ,the power ball is about the only thing that can help you out and for much cheaper than having a pro do it .Not to mention doing it by hand just sucks .But it would take two at least to do all 4 wheels Then the polish will do what its advertised to do or use any polish you want You will need to at least remove the wheel off the truck for the best results If you strip the rims or use acidic cleaners to remove the remaining clear coat It may take more materials Like polish ,Pads,or the power ball thing Cause it will leave a raw aluminum surface which usually requires more time and labor to polish out DON'T WIRE WHEEL THE RIMS OKAY YOU WILL SCRATCH THEM SO DEEP YOU WILL RUIN THEM NO ABRASIVE MATERIALS ARE TO BE USED ON A ALUMINUM RIM NOT EVEN A WIRE WHEEL OF ANY TYPE OR MATERIAL SHOULD BE USED ON THE RIM what you'll do is make them uglier Cause pitting strip the surface leaving a porous and uneven surface Which corrosion likes to form on .Thats the worst and the wrong way to clean aluminum and even steel sometimes depending on what it is But NEVER aluminum

Hey! I have an Aluminum MacBook (2.4 GHz Core 2 Duo, 9400m graphics processor), and I'm wondering whether it's worth updating to the new 2011 13 MacBook Pro. I'm mainly looking for two things: 1. What would be the difference between the 2.4 GHz Core 2 Duo, and the 2.3 GHz i5, and 2. What would be the difference between the 9400m and the HD 3000 Graphics?Thanks! :)

The macpro is the better machine, but for most people the difference would be negligible. your aluminum is still MORE than good enough for almost all people. What are you using it for? If you're into CAD, by all means upgrade. But if you're just surfing the net, save your money. HD3000 is actually worse graphics, but the rest of the machine is better EDIT: AGAIN, it depends on what you are using it for!!! Despite using additional details, you never once discussed how it is to be used. If you read the post, it says, for most people the difference would be negligible. IF your needs are resource intensive, you might need to replace it. If your needs are not resource intensive, you can save your money. For example, I don't need to buy a new car every year, I usually make it last 5-6 years. But my computing requirements are high enough where I replace my laptops every two years and desktops alternating years so I always have a machine that is less than a year old. MOST people squeeze 4 or more years out of a computer. If you are a general ed, humanities or undeclared your aluminum would suit you just fine thgouh your lower 2 years even though it is older. You could then get a new computer for your upper division. If you were a engineering or architecture student, I'd upgrade after first year courses, If you're in business or engineering, get a PC, if you're in architecture, journalism, music or design get a mac. Any other major, it really doesn't matter. Good luck in school!

Yes, aluminum coils can be used in food packaging. Aluminum is a safe and versatile material that has been widely used in the food packaging industry for many years. It offers various benefits such as being lightweight, resistant to corrosion, and having excellent thermal conductivity. These properties make it ideal for food packaging applications where it is important to preserve the quality, freshness, and safety of the food products. Aluminum coils can be easily formed into different shapes and sizes, allowing for customized packaging solutions. Additionally, aluminum is a sustainable material as it is 100% recyclable, which further enhances its appeal for food packaging.

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.

Yes, aluminum coils can be used for nameplates and labels. Aluminum is a versatile and durable material that can be easily shaped, engraved, or printed on. It is commonly used for manufacturing nameplates and labels due to its resistance to corrosion, lightweight nature, and ability to withstand harsh environments.

The specific requirements and industry standards determine the various coil slitting widths available for aluminum coils. The width range for slitting aluminum coils can vary from as narrow as 0.5 inches to as wide as 72 inches or more. The coil slitting facility's equipment and capabilities determine the exact range of available widths. These widths are tailored for different applications and industries, including automotive, construction, packaging, and electronics. Common coil slitting widths for aluminum coils are 12 inches, 24 inches, 36 inches, and 48 inches. However, it is essential to note that custom slitting widths can be requested to meet unique project needs.

The tensile strength of an average aluminum coil can vary depending on the specific alloy and temper of the aluminum. However, on average, aluminum coils typically have a tensile strength ranging from 13,000 to 30,000 pounds per square inch (psi). It is important to note that this range is a general approximation, and the actual tensile strength can be influenced by factors such as the manufacturing process, alloy composition, and any heat treatments applied to the aluminum.