How Space Structures Perform in High Wind and Seismic Zones

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 In regions like the Middle East, Pacific Rim, or coastal Africa, buildings must withstand extreme conditions. Space structures are engineered for these environments—and often outperform traditional systems.

1. Aerodynamic Form = Wind Load Reduction

With domes or curved grids, space structures present less surface area to uplift. The grid dissipates pressure more evenly than flat trusses or slabs.

2. Structural Redundancy Saves Lives

In space structures, load is distributed through multiple paths. If one member fails, others take over—critical in earthquakes.


3. Lightweight Means Less Seismic Force

Heavier roofs = greater seismic load. Space structures are lighter, which directly reduces the dynamic force during shaking.

4. Verified by Simulation and Real Projects

We run every high-risk project through FEM software (e.g., ETABS, SAP2000) and have delivered safe structures in Japan, Peru, and Turkey.

5. Flexible in Connection Detailing

We offer seismic expansion joints, adjustable supports, and double-layered ball joints to absorb movement and protect your structure.

🏗️ Building in a challenging environment?
📐 Talk to our seismic + wind design team for region-specific engineering support and optimized solutions.

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