Large-span, column-free space
Utilizing a high-quality aluminum structural system, the span can be customized to meet specific needs, maximizing space utilization. The unobstructed design facilitates aircraft entry, exit, maneuvering, and parking, and accommodates aircraft of all sizes.
High-strength safety protection
Constructed in strict accordance with aviation facility construction standards, the structure is resistant to strong winds, earthquakes, and rain and snow loads. It is corrosion-resistant and weather-resistant, suitable for various complex climatic environments—including coastal, high-altitude, and extremely cold regions—with a service life of over 30 years.
Constant Temperature, Moisture-Proof, and Dust-Proof
Utilizes high-end insulated sandwich panels with upgraded sealing techniques to effectively isolate temperature fluctuations and block moisture and dust, preventing the aircraft fuselage and precision components from becoming damp or oxidized, thereby reducing future maintenance costs.
Comprehensive Smart Features
Can be equipped with optional accessories such as electric sliding gates, fire protection systems, ventilation and lighting, temperature and humidity control, and drainage systems as needed, enabling intelligent and standardized hangar operations.
Rapid Construction and High Cost-Effectiveness
Modular prefabrication combined with on-site assembly reduces construction time by at least 50% compared to traditional concrete hangars. The cost-effectiveness of materials, construction, and maintenance far exceeds that of traditional construction methods.
Relocatable and Scalable
The modular design allows for disassembly and relocation, and the floor area can be flexibly adjusted to accommodate business growth, meeting the needs of different stages.
| Comparison Items | Aluminum Alloy Hangar | Steel-Frame Hangar | Traditional Hangar |
| Main Materials | 6061-T6 Aerospace-Grade Aluminum Profiles + PVC Tarpaulin Enclosure | I-beams / C-channels + Color-coated steel roofing sheets / Sandwich panels | Red brick + cement-sand-gravel mix + cast-in-place reinforced concrete |
| Construction Period |
1–6 months, fast delivery | 12–15 months | 18 months or longer; long construction period |
| Foundation Requirements |
No complex foundation is required; a standard hardened floor is sufficient. | Requires a separate concrete foundation; strict technical specifications apply. | Deep pile foundations are required to reinforce the ground, which places high demands on geological conditions. |
| Demolition and Relocation |
Can be repeatedly disassembled and reassembled for reuse, and adapts to temporary or dynamic site requirements | Retrofitting is costly and offers little flexibility. | Demolition results in immediate scrapping; the volume of construction waste is large, and it cannot be reused. |
| Service Life | Typically 15–30 years; replacing the cladding panels can extend this lifespan. | Approximately 20–35 years; maintenance—including rust removal and repainting—is required every 3–5 years. | The main structure is over 50 years old, and the cost of future wall and roof repairs is high. |
Low-Altitude Tourism
General Aviation Airport
And Industrial Hangar
Q 1. What is an aluminum alloy aircraft hangar?
Q 2. What are the advantages of aluminum hangars compared to traditional steel hangars?
Q 3. What types of aircraft can your aluminum hangar accommodate?