1. Aluminum alloy: As the shell material of the homestay spacecraft, aluminum alloy has the advantages of lightweight, high strength, and corrosion resistance, which makes the spacecraft have good wind pressure resistance performance.
2. Surface treatment: The aluminum alloy shell undergoes surface treatment such as anodizing or spraying, which increases the hardness and durability of the material and further enhances its wind pressure resistance.
3. Insulation layer: The outer shell of the Aluminum Le Homestay spacecraft is also equipped with a layer of insulation material, which improves the insulation performance inside the cabin and reduces wind damageSpace capsule shellThe impact.
1. Streamlined design: The outer shell of the spacecraft adopts a streamlined design, reducing wind resistance and improving wind pressure resistance performance.
2. Strengthening rib design: Reinforcing ribs are installed inside the outer shell of the spacecraft, increasing the stability and stiffness of the structure and improving its wind pressure resistance performance.
3. Corner treatment: The corners of the outer shell of the spacecraft are designed to be rounded, avoiding the impact of sharp corners on wind and further improving its wind resistance performance.
1. Welding process: The spacecraft shell adopts advanced welding technology to ensure the sealing and stability of the shell, and improve the wind pressure resistance performance.
2. Splicing process: The splicing process of the spacecraft shell is exquisite, ensuring the integrity and rigidity of the shell, and improving its wind pressure resistance performance.
3. Coating process: The outer shell of the spacecraft undergoes a special coating process to increase its weather resistance and corrosion resistance, further improving its wind pressure resistance.
According to actual test data, the wind resistance performance of the Aluminum Le Homestay spacecraft is excellent. Under normal operating conditions, the outer shell of the spacecraft can withstand wind speeds exceeding level 12 typhoons, ensuring the safety and stability of the spacecraft.
Meanwhile, other studies have also shown that factors such as aluminum alloy materials and streamlined design play an important role in improving the wind resistance performance of homestay spacecraft.
In summary, the wind resistance performance of the Aluminum Le Homestay spacecraft is excellent, thanks to optimization in multiple aspects such as material selection, structural design, construction technology, and measured data. In the future, with the continuous advancement and innovation of technology, the wind resistance performance of the homestay spacecraft will be further improved.