Aluminum alloy and its aluminum shell composition!

According to the composition and production process characteristics of aluminum alloys, it is usually divided into two categories: deformation and cast aluminum alloys. The main industrial applications are aluminum-manganese, aluminum-magnesium, aluminum-magnesium-copper, aluminum-magnesium-silicon-copper, Aluminum-zinc-magnesium-copper and other alloys. Wrought aluminum alloy is also called cooked aluminum alloy. According to its composition and performance characteristics, it is divided into five types: anti-rust aluminum, duralumin, super-hard aluminum, forged aluminum and special aluminum. Aluminum alloy is made of pure aluminum by adding some alloying elements, such as aluminum-manganese alloy, aluminum-copper alloy, aluminum-copper-magnesium hard aluminum alloy, and aluminum-zinc-magnesium-copper super hard aluminum alloy. Aluminum alloy has better physical and mechanical properties than pure aluminum: easy processing, high durability, wide application range, good decorative effect, and rich colors. Aluminum alloys are divided into rust-proof aluminum, duralumin, super-duralumin and other types. Each type has its own range of use and has its own code for users to choose.

Aluminum alloy still maintains its light weight, but its mechanical properties are significantly improved. The application of aluminum alloy materials has the following three aspects: one is as a force-bearing member; the other is as a door, window, tube, cover, shell and other materials; the third is as a decoration and thermal insulation material. The aluminum alloy can be colored after anodizing treatment to make various decorations. The surface of aluminum alloy plates and profiles can be processed by anti-corrosion, embossing, painting, printing and other secondary processing to make various decorative plates and profiles. As a decorative material, the cost is low, and the same parts can be produced in large quantities by using a processing technology. , This is also one of his characteristics. Its material properties are light, easy to process, and unlike carbon fiber, it has a maximum force range in terms of endurance. What does it mean? That is to say, because of the characteristics of fibers, carbon fiber has a strong ability to bear force in a certain fiber direction, but the force in other directions will be poor. When manufacturing a relatively large part, several layers of carbon fiber may be used. When the force is exceeded, the part will become layer by layer like a shortbread. The aluminum alloy will slowly deform and then be damaged after being subjected to a certain amount of force.

In addition, aluminum alloy is easy to process and has a high degree of heat dissipation. Especially the vehicle engine part is particularly suitable for the use of aluminum alloy materials. This is almost entirely a world of aluminum alloys. In addition, the processing technology of aluminum alloy is diverse. Strong versatility. It is widely used in instruments, meters, electronics, communications, automation, sensors, smart cards, industrial control, precision machinery and other industries. It is an ideal housing for high-end instruments. The surface treatment adopts electrostatic spraying, the colors are off-white, dark gray, black, army green, etc.