prominent advantages of extruded aluminum tubes in automotive industry application scenarios(三)
Views: 0 Author: Site Editor Publish Time: 2025-03-03 Origin: Site
Comparison items
| Extruded aluminum tube | Stainless steel pipe | Titanium alloy tube |
Density (g/cm ³) | 2.7 | 7.9 | 4.5 |
specific strength | tall | low | highest |
cost | Low (material+processing) | medium
| Extremely high
|
corrosion resistance | Excellent (requires surface treatment) | excellent
| excellent
|
Process complexity | Low (easy to extrude)
| High (requiring welding/machining)
| Extremely high (requiring hot forming) |
Typical applications
| Aircraft hydraulic pipes, satellite supports
| High temperature engine components
| Key components of supersonic aircraft |
4、 Technical Challenges and Solutions
High temperature softening problem
Challenge: The strength of aluminum alloy decreases when it exceeds 150 ℃, limiting its application in the high-temperature zone of engines.
Solution:
Developing heat-resistant aluminum alloys (such as Al Cu Mg Ag series);
Surface spraying ceramic coating (such as plasma spraying Al ₂ O ∝).
Welding performance limitations
Challenge: Welding high-strength aluminum alloys (such as 7xxx series) is prone to cracking.
Solution:
Replace traditional fusion welding with friction stir welding (FSW) or riveting;
Design an integrated extrusion structure to reduce welding requirements.
Long life anti fatigue design
Challenge: Repeated loading of aircraft can easily lead to fatigue failure.
Solution:
Optimize extrusion process to reduce internal defects;
Adopting shot peening to enhance surface compressive stress.
5、 Future Trends
Development of high-performance alloys
Develop aluminum alloys containing scandium (Sc), such as Al Mg Sc, with a 20% increase in strength and enhanced heat resistance.
Intelligent manufacturing
AI assisted mold design optimizes cross-sectional shape and reduces material waste (such as topology optimization of hollow structures).
Application of Composite Structures
Combining aluminum tubes with carbon fiber composite materials to achieve a "metal composite" hybrid structure (such as the leading edge of the Airbus A350 wing).
summarize
The core advantages of extruded aluminum tubes in the aerospace field lie in their lightweight, high strength, corrosion resistance, and process flexibility, making them the preferred material for key components such as aircraft structures, engine systems, and spacecraft supports. With breakthroughs in technologies such as heat-resistant alloys and composite structures, extruded aluminum tubes will continue to drive the development of aerospace equipment towards higher efficiency and reliability.
