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FAQ

On the web page to see more information on the plating aluminum plate, I do not know what is the difference between aluminized and aluminum plating performance?

Microstructure characteristics of hot dipped aluminized steelHot dip aluminizing steel to achieve the combination of atoms between iron and aluminum by metal bond, close together, as was shown under the microscope, from the outside to the inside with two aluminum film, three aluminum oxide layer, the alloy layer sequentially formed coating. If the coating of carbon steel, the banded structure and base metal contact.Coating thickness: if carbon steel, then the aluminum layer is 0.04-0.07mm alloy layer, the average 0.05mm. However, the thickness of each layer depends on the type of steel, the amount of carbon, and the temperature and time of the dipping. If the parent material is alloy steel, coating and the differences (omitted).

I had this mandarin orange can. I filled the can with water. Four days later, there are quarter inch thick rust cakes on the inside of the can. Since I assume the can is aluminum, are these cakes aluminum oxide? If so, is it flammable and/or dangerous?

Aluminum oxide is white and powdery in texture. It also takes a bit longer for aluminum to oxidize than iron, so I don't think you could have cakes of aluminum oxide in 4 days. If the cakes you are describing are reddish in color, then no, it is NOT aluminum oxide. It is good old fashioned ferric oxide- rust from iron.

1. Why does aluminium resist corrosion?2. How do we make aluminium stronger?3. Why does titanium resist corrosion?4. What properties make titanium ideal to use in jet engines and nuclear reactors?5. Why do we need electricity to make aluminium and titanium?6. Why does recycling aluminium save electricity?Even if you only know the answer to one question the help will be much appreciated :D

1. When exposed to air, pure aluminium rapidly forms a passive oxide layer, alumina, which further inhibits aluminium reactions with other elements. 2. Aluminium can be made stronger by alloying with other elements. One of the most known aluminum alloy is duraluminium, where the principal alloying component is copper. 3. Exactly as aluminium, titanium corrosion resistance is due to its high reactivity with oxygen. When pure titanium is exposed to air it forms a passive titanium dioxide layer on the surfaces exposed which further prohibits other reactions with corrosion agents. 4. The use of titanium in jet engines components is favored by its strength to weight ration, which is unmatched by any other metal. As for the nuclear reactors, its use is preferred because of its superior corrosion resistance associated with fracture toughness and overall durability. 5. Both titanium and aluminium are refined from their respective mined ores - bauxite, for aluminium, ilmenite and rutile for titanium. Basically, these are oxides of the metals. Pure metal has to be reduced from these ores and processes involve use of temperatures up to and sometime exceeding 1000 degrees Celsius, which obviously requires a great consumption of energy, including electricity. Moreover, pure aluminium is obtained in the final processing phase through electrolysis, meaning an electrical current is needed in order to drive the required chemical reactions, thus adding to the electrical consumption. 6. Recycling aluminium from aluminium simply requires the remelting of the metal, eliminating the electrolytic phase that is high electric energy consuming.

Known for their excellent thermal conductivity, aluminum sheets are highly efficient in transferring heat due to having one of the highest thermal conductivity among common metals. This quality enables aluminum sheets to rapidly absorb and distribute heat, making them ideal for situations where heat needs to be dissipated or transferred quickly. Furthermore, their high thermal conductivity guarantees even heat distribution across the surface, reducing hot spots and improving overall heat transfer efficiency. As a result, aluminum sheets are widely acknowledged for their exceptional thermal conductivity, making them a favored option in industries such as automotive, aerospace, and electronics.

Yes, aluminum sheets can be brushed or satin finished.

There are several different alloys available for aluminum sheets, each with its own unique properties and applications. Some of the most common alloys include: 1. 1100: This is a commercially pure aluminum alloy with excellent corrosion resistance, making it suitable for applications where high levels of corrosion resistance are required, such as in marine environments. 2. 3003: Another commercially pure alloy, 3003 offers good formability, high corrosion resistance, and moderate strength. It is commonly used for general sheet metal work, cooking utensils, and chemical equipment. 3. 5052: This alloy is known for its high fatigue strength and excellent corrosion resistance, particularly in saltwater environments. It is often used in marine applications, as well as for aircraft components and fuel tanks. 4. 6061: A heat-treatable alloy, 6061 exhibits good weldability and formability, along with high strength and excellent corrosion resistance. It is commonly used in structural components, such as frames and railings, as well as automotive parts. 5. 7075: This alloy is known for its high strength-to-weight ratio, making it ideal for aerospace applications and high-stress structural components. However, it is less corrosion resistant than other alloys and may require protective coatings in certain environments. These are just a few examples of the alloys available for aluminum sheets. The choice of alloy will depend on the specific requirements of the application, such as strength, corrosion resistance, formability, and cost. It is important to consult with a knowledgeable supplier or engineer to determine the most suitable alloy for your specific needs.

Yes, aluminum sheets can be used for flooring. Aluminum is a lightweight and durable material that is resistant to corrosion, making it a suitable choice for various flooring applications. Aluminum sheets are often used in industrial, commercial, and residential settings, including warehouses, garages, kitchens, and outdoor spaces. They offer good strength, easy installation, and low maintenance. Additionally, aluminum flooring can provide a sleek and modern appearance to any space. However, it is important to consider factors such as thickness, finish, and the specific requirements of the flooring project before selecting aluminum sheets.

A dry aluminium foil paper can be bring out from oven with no burn on finger but if foil has some moisture it will result in burn why?

It isn't the foil that is burning you--it's the water. Aluminum foil is a good heat conductor. This means that when you expose the foil to the air, it will cool off very rapidly (rapidly reaching room temperature). Water is NOT a good heat conductor, in fact, it likes to hold onto it's heat. So while the dry foil may come to room temperature (or just warm to the touch) in a few seconds, the water will stay hot for much longer (depending on how much water there is obviously). It's really the same as trying to grab a baked potato wrapped in foil off of the grill. If you grab the potato you will burn your hand (because the potato is holding A LOT of heat), but if you carefully peel away the foil, you can touch and take the foil off with your bare hand. I should say that the mass of the foil also plays a role here. The foil is not very massive and thus does not hold a lot of raw energy to begin with (also because it's a good heat conductor it dissipates quickly). Bu if you put an aluminum can (or a brick of aluminum) in the oven, I guarantee that it would stay hotter for much longer than just a piece of aluminum foil.