SU144992A1 - High-strength wrought aluminum-based alloy - Google Patents

Description

The currently used deformable aluminum-magnesium snlavs by industry are still not sufficiently high in strength, ductility, corrosion resistance, etc. For example, the well-known aluminum-magnesium alloy AMG-6 has low technological properties and a greater tendency to corrosion under stress.

The proposed high-strength wrought aluminum-based alloy has the following chemical composition (%):

aluminum brand AOO- basis

magnesium-7-8

manganese-0.15-0.35

zirconium-0.02-0.08 titanium-0.02-0.07

beryllium-0.002-0.005

zinc-0.5-1.5

The main difference of the proposed alloy from the existing is the presence in its composition of 0.05-1.5% zinc, 0.002-0.005% beryllium and 0.02-0.08% zirconium, which provides an increase in mechanical properties and corrosion resistance. In comparison with the AMG-6 alloy, it contains a reduced amount of manganese (0.15-0.35%) and increased magnesium (7-8%), which ensures high strength and ductility.

Titanium shreds the structure and increases the techiology for hotter: deformation. Zirconium crushes and separates (Z-phase, increasing the alloy's ability to cold stamping. Beryllium reduces the oxidized alloy, and zinc increases its resistance against corrosion under stress. Comparative mechanical data is given in Table. The properties of the AMG-6 alloy and previous

The proposed alloy can be used in the manufacture of products made by cold forging, to which high demands on mechanical properties are made.

Subject invention

A high-strength wrought aluminum-based alloy containing: 7-8% magnesium, 0.15-0.35% manganese, 0.02-0.07% titanium, characterized in that, in order to increase the mechanical properties and corrosion resistance, its composition is introduced 0.5-1.5% zinc, 0.002-0.005% beryllium, 0.02-0.08% zirconium.