Author: WJW Aluminum Window Manufacturers
The application of aluminum profiles in the aviation industry has a long history. This is because aluminum profiles can achieve high pressure resistance after heat treatment, but the net weight becomes light; Commonly used raw materials for the aviation industry are widely used to produce modern commercial four -axis aircraft and military four -axis aircraft.
How to reduce the cost of 7075 and 7040 aluminum profile castings according to the thermal treatment process has attracted much attention in recent years. Aircraft frame manufacturers have been tested in production and manufacturing this aluminum -type board (except aluminum rolling heat treatment process), and aluminum profiles The advantages of the processing process of large and medium -sized wing ribs and turning on the shot of the board after the overweight processing is to prevent the thermal treatment process of small parts. The control of deformation and internal stress is stronger, but the disadvantage is that the performance will follow the thickness of the aluminum plate. Change and change.
Due to the working ability of machinery and equipment, sometimes the use of castings, but its applications are relatively limited, depending on the limited ductility of the design scheme and casting. When the aircraft design is selected from the structure of the structure, it should have a high strength and ratio of curvature. The structure of the aircraft is net weight, improves navigation performance or improves economic benefits. They should also have excellent processing performance, which is conducive to creating necessary parts. Simply speaking, aluminum profiles are light quality, high pressure resistance, convenient production and processing, relatively low prices in price, relatively low prices Therefore, aluminum profiles are used as key structural raw materials for various aircraft. The aluminum profiles used in the aviation industry are generally called aviation aluminum profiles. It has a series of advantages such as high strength, good processing formability, low cost, and good maintenance. In terms of flying speed, structural weight loss and concealed design requirements will greatly improve the intensity, ratio stiffness, damage tolerance performance, manufacturing cost and structural integration of aviation aluminum profiles.