Building materials extrusion aluminum profiles are very commonly used designated materials for extrusion and shape profiles. Because of its mechanical properties, architectural aluminum is very suitable for forming and forming metals from billets. The high ductility of aluminum profiles means that metals can be easily formed into various cross-sections without spending a lot of energy in the processing or forming process, and the melting point of aluminum is usually about half that of ordinary steel. Both of these facts mean that the energy consumption of the aluminum extrusion process is relatively low, thereby reducing mold and manufacturing costs. Finally, aluminum also has a high strength-to-weight ratio, making it an excellent choice for industrial applications.
Extrusion technology of building extruded aluminum profile
Building materials extrusion aluminum profiles can create a variety of complex extruded aluminum profiles with different thicknesses. These configuration parameters can have various complex gap associations, which are necessary for end-use applications. In order to facilitate various automation applications and meet any performance and weight requirements, a variety of internal voids can be used. The most common type of aluminum profile is a hollow beam profile, which is just a variation of a square profile. There are other contour types, such as triangular, single radius, and L-shaped contours.
2. Surface type
Building materials extrusion aluminum profiles As a by-product of the extrusion process, sometimes small, almost invisible lines appear on the surface of the profile. This is the result of auxiliary tools formed during extrusion, and other surface treatments can be specified to remove these lines. In order to improve the surface finish of the profile section, some secondary surface treatment operations can be performed, such as end milling after the main extrusion molding process. These machining operations can be specified to improve the surface geometry by reducing the overall surface roughness of the extrusion profile to improve the part profile. These treatments are usually specified in applications that require precise positioning of parts or must strictly control mating surfaces.
Building materials extrusion aluminum profiles are most commonly used in industrial automation applications, such as process lines and automation motion applications throughout the manufacturing industry. They are strong and lightweight, so they can be easily handled manually and can be constructed into various configurations according to the requirements of automated structures. In addition to traditional automation applications, structural aluminum profiles are even designated as part of the weight reduction. In this sense, they are increasingly being used as a framework for other end-use consumer products, such as automobiles and LEED construction projects. With the development of more advanced aluminum alloy and surface coating technology, its use is expanding to these new areas.
Finally, building materials extrusion aluminum profiles have a wide range of uses and are very suitable for building automation applications. Aluminum is an excellent structural material and very suitable for extrusion profiles. Aluminum profiles are likely to be fully suitable for specific automation applications.