The aluminum alloy is made of pure aluminum added with some alloying elements, such as aluminum-manganese alloy, aluminum-copper alloy, aluminum-copper-magnesium hard aluminum alloy, aluminum-zinc-magnesium-copper superhard 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 color. Aluminum alloys are classified into rust-proof aluminum, hard aluminum, and super-hard aluminum. Each category has its own range of use and has its own code for users to choose.
The aluminum alloy has low density, but high strength, close to or exceeds high-quality steel, good plasticity, can be processed into various profiles, has excellent electrical conductivity, thermal conductivity and corrosion resistance. It is widely used in industry and is used second only to steel. . Some aluminum alloys can be heat treated to achieve good mechanical properties, physical properties and corrosion resistance.
The aluminum alloy still maintains the light weight characteristics, but the mechanical properties are significantly improved. The application of aluminum alloy materials has the following three aspects: one is as a force member; the other is as a door, window, tube, cover, shell, etc.; the third is as a decorative and thermal insulation material. It can be made into various decorations by using the characteristics of coloring after anodizing the aluminum alloy. The surface of aluminum alloy sheets and profiles can be subjected to secondary processing such as anti-corrosion, ginning, painting and printing, and various decorative sheets and profiles are used as decorative materials.
One of his characteristics is the low cost and the ability to mass produce the same parts using a single process.
Its material properties are light, easy to process, and have a maximum force range unlike carbon fiber in terms of strength. What does it mean? That is to say, carbon fiber has a strong ability to be applied in a certain fiber direction because of its fiber characteristics, but it is inferior in other directions. Several layers of carbon fiber may be used in the manufacture of a relatively large part, and the part will become layer by layer like a shortbread when it exceeds the force. After the aluminum alloy has withstood a certain amount of force, it will slowly deform and damage.
There is also an aluminum alloy that is easy to process and has a high degree of heat dissipation. In particular, the engine part of the vehicle is particularly suitable for use with aluminum alloy materials. It is almost entirely a world of aluminum alloy.
In addition, the processing technology of aluminum alloys is diverse. Strong versatility.