Advantages and characteristics of Alumold-150 aluminum alloy pre-stretched plates used in aviation equipment structural parts
Alumold-150 aluminum alloy pre-stretched plate has excellent pressure processing and mechanical processing properties. It has the characteristics of high strength, good plasticity and not easy to deform after processing. Therefore, this alloy is suitable for structural parts of aviation equipment. The following is a further summary of the application of Alumold-150 aluminum alloy in aviation equipment structural parts:
Chemical composition
Aluminum Al: balance
Silicon Si: ≤0.40
Copper Cu: ≤0.10
Magnesium Mg: 4.0~4.9
Zinc Zn: ≤0.25
Manganese Mn: 0.40 ~1.0
Titanium Ti: ≤0.15
Chromium Cr: 0.05~0.25
Iron Fe: 0.000~ 0.400
Note: Single :≤0.05;
Total:≤0.15
Mechanical properties of Alumold-150 aluminum plate
Mechanical properties:
Tensile strength σb ( MPa)173~244
Conditional yield strength σ0.2 (MPa)≥70
High strength: Alumold-150 aluminum alloy pre-stretched plate has high strength, which makes It can withstand the external loads and pressures required for aviation equipment structural parts and provide structural stability and safety.
Good plasticity: The alloy has good plasticity, allowing it to adapt to complex processing shapes and needs. This enables more precise shapes and sizes to be achieved when manufacturing structural parts of aviation equipment, and meets engineering design requirements.
Outstanding processing performance: Alumold-150 aluminum alloy pre-stretched plate can be used for shape adjustment, cutting, stamping and other processing operations through pressure processing and mechanical processing. Its outstanding machining performance makes the manufacturing process more flexible and can meet the complex processing needs of aviation equipment structural parts.
Through the above characteristics, Alumold-150 aluminum alloy pre-stretched panels can provide a balance of strength, plasticity and precise processing performance in aerospace equipment structural parts. These properties allow the alloy to assume important structural roles while maintaining structural stability and performance.