Do You Know The Application And Production Process Of Ertrusion Aluminum Profiles?

Ertrusion Aluminum Profiles have a wide range of applications, mainly including construction, automobiles, aerospace, electronics and other industries. In the construction field, Ertrusion Aluminum Profiles are often used to make door and window frames, radiators, structural support parts, etc.

In the automotive industry, Ertrusion Aluminum Profiles are widely used in automobile lightweighting, used to manufacture high-strength aluminum extruded alloy materials and lightweight automobile chassis parts, safety parts, etc., covering first-tier foreign and joint venture brands such as Mercedes-Benz, BMW, Toyota, Honda, as well as independent brands such as GAC, Great Wall, Geely, and Chery.

In addition, Ertrusion Aluminum Profiles technology is also widely used in new energy passenger cars, mainly used to manufacture bumper anti-collision beams and other components.

Application examples of Ertrusion Aluminum Profiles in various fields:

In the construction field, extruded aluminum profiles are used to make door and window frames, radiators, structural support parts, etc., with high material utilization and good mechanical properties.

In the automotive industry, Ertrusion Aluminum Profiles are used to manufacture high-strength aluminum extrusion alloy materials and lightweight automobile chassis parts, safety parts, etc., and are used in brands such as Mercedes-Benz, BMW, Toyota, and Honda.

Aerospace, Ertrusion Aluminum Profiles are widely used in the aerospace field due to their light weight and high strength, and are used to manufacture various structural parts and components.

Electronics industry, Ertrusion Aluminum Profiles are used to manufacture heat sinks and structural support parts for electronic equipment, with good thermal conductivity and mechanical properties.

The production process of Ertrusion Aluminum Profiles includes the following steps:

Heating, heating the aluminum alloy material to a plastic state (usually at 400 to 500 degrees Celsius). Extrusion, by applying high pressure, forcing the aluminum alloy material through the mold cavity to form a product with a specific cross-sectional shape. Cooling, the extruded aluminum profile is cooled by air or water to maintain its shape. Cutting and subsequent processing: cutting into the required length as needed, and performing subsequent processes such as heat treatment and surface treatment to improve its mechanical properties and corrosion resistance.