SAFS Steel Structure Space Frame Truss

 Connection type is one of the most underestimated but crucial decisions in space structure design. Here's how ball joints compare to welded nodes , and how each affects the outcome of your project. 1. Ball Joint Systems = High Precision + Modular Prefabricated steel balls with drilled holes Tubes connected using high-strength bolts ✅ Fast assembly, excellent accuracy ✅ Widely used in international projects ✅ Ideal for export and repeatable designs 2. Welded Node Systems = Cheaper But Riskier Members are directly welded at intersections 🔧 Lower material cost, but slower installation ❌ Prone to on-site welding defects ❌ Harder to maintain and inspect 3. Maintenance and Safety Ball joints can be replaced or tightened Welded joints are permanent and hard to access 4. Architectural Freedom Ball joint systems support double-curved , spherical, and parametric forms better—crucial for creative roofs or glass domes. 🔩 Choosing the right spa...

 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 , ...

 Choosing the right structural system is not just a technical decision—it’s a strategic one. Below is a practical comparison between space structures and other popular systems used in large-span buildings. Structure Type Max Span Weight Aesthetic Install Speed Cost Efficiency Space Structure 30–150m+ Lightweight  Stylish  Fast (bolted)  High (prefab) Steel Truss ≤60m Medium  Bulky  Slower  Moderate H-Beam + Purlins ≤40m Heavy  Basic  Welding-heavy  High labor Concrete Structure ≤25m Very Heavy  Plain  Long time  High cost Key Advantages of Space Structure: ✅ Long Span, No Middle Columns ✅ Faster Erection with Bolted Connections ✅ Architectural Freedom: Domes, Curves, Grids ✅ Lower Foundation Loads = Less Concrete Needed 🔍 Still unsure which structure suits your project? 📊 Request a comparative technical proposal — we’ll give you cost, speed, and engineering dat...

 Choosing the right building structure is a critical decision. Many owners make costly mistakes due to lack of technical insight. Here are 5 common misconceptions—and how space structures provide smarter solutions: Mistake 1: “Concrete Is Always Cheaper” Not true for long spans. Space structures are lighter, faster to build , and often cheaper than post-tensioned concrete slabs for large roofs. Mistake 2: “Steel Trusses Can Do the Same Job” Trusses work—but become visually bulky and hard to install at very wide spans (60m+). Space structures are more elegant and modular. Mistake 3: “I Don’t Need Column-Free Space” Until you need to reconfigure interiors, install large equipment, or host a crowd. Space structures future-proof your facility. Mistake 4: “It’ll Be Too Complex to Install Locally” Actually, most space structures are bolt-assembled with simple lifting equipment. We’ve supported teams in over 30 countries, including first-time users. Mistake 5: “No One Around M...

 From Brazil to Peru, space structures are gaining popularity across South America. But this diverse market brings unique engineering, logistical, and cultural challenges. Here’s what we’ve learned after completing over 20 regional space structure projects: 1. Humidity and Corrosion Are Real Risks Coastal cities like Rio and Lima require anti-corrosion treatment. We recommend hot-dip galvanizing + paint finish for long-lasting protection. 2. Seismic Zones Need Special Design Chile, Ecuador, and parts of Colombia lie in seismic zones. Our space structures include multi-node bracing and high-ductility connectors to meet local seismic codes. 3. Speed = Winning Advantage Governments and developers in the region are extremely time-sensitive. Our prefab space structures allow fast-track assembly—many projects completed in 30–60 days. 4. Local Labor, Global Design We provide detailed manuals and video guides to help local crews erect the structure, minimizing dependence on expe...

 Modern buildings are evolving. They’re not just strong—they’re smart, light-filled, and energy-generating. This is where space structures shine, especially when combined with glass, ETFE membranes , or photovoltaic panels . 1. Crystal-Clear Canopies with Space Structures Whether you’re designing an airport, museum, or botanical garden, space structures can support large areas of glass or ETFE to create transparent, open-air atmospheres. 2. Lightweight = Better for Membrane Roofs ETFE is incredibly light. Space structures are the perfect frame—strong, geometric, and capable of holding tensioned films or multi-layer air cushions. 3. Solar-Ready for Energy-Efficient Buildings Need to reduce energy use? Space structures can integrate BIPV (building-integrated photovoltaics) —turning your roof into a power source. 4. Seamless Engineering Compatibility Our space structure designs include pre-set fixing nodes and clamps for glass/film/solar panels—making installation clean and le...

 Governments around the world are investing in sports arenas, transportation terminals, and exhibition centers. These projects demand large spans, fast schedules, and long-term value. Space structures meet these needs—and can help your team win bids. 1. High Technical Score in Tenders Space structures offer clear span, fast construction, and seismic safety—all of which boost your score in technical evaluations. 2. Cost-Effective Without Cutting Corners Thanks to prefabrication and modular design, space structures reduce total project cost while delivering global-level quality. 3. Proven in Public Infrastructure From Africa to Southeast Asia, our space structures have been used in government-funded airports, stadiums, and civic centers—with excellent performance. 4. Fast-Track Construction Governments like quick results. Our systems are designed for fast assembly—reducing labor and enabling projects to open on time. 5. Support with Drawings + BOQs Our team provides full t...

In today’s fast-paced global construction market, cost and speed are everything. That’s why more developers are turning to a hybrid delivery model: fabricate space structures in China (or other low-cost centers) and install them locally . 1. Lower Cost, Same Quality Fabricating components in certified overseas factories can reduce material and labor costs by up to 30%, without compromising structural integrity or design compliance. 2. Easy to Ship and Assemble Space structures are modular and lightweight. They’re packed in containers, shipped globally, and assembled quickly by local teams with minimal machinery. 3. Faster Timelines Offsite fabrication + onsite bolted assembly = parallel progress. Foundations and roof prep can happen at the same time. 4. Support for Local Contractors Our engineers provide clear drawings, 3D models, and remote or onsite installation training—empowering your local crews and reducing risk. 5. Proven in 20+ Countries From airports in Africa to stadiums in ...

 In many Islamic countries, mosques serve not only as places of worship but also as architectural icons. Today, architects are turning to space structures to create breathtaking domes and column-free prayer halls that respect tradition while embracing modern efficiency. 1. Iconic Domes, Built with Precision Whether you want a hemispherical, onion-shaped, or custom geometric dome, space structures offer both the flexibility and structural performance required for large-scale mosque roofs. 2. Uninterrupted Prayer Space Many mosques now demand spans of 40m–80m with no interior columns. Space structures make this possible, ensuring worshippers have a clear view of the mihrab and imam. 3. Islamic Geometry Meets Engineering With modular triangular grids, space structures can incorporate Islamic star patterns, muqarnas-style detailing, or Kufic inscriptions—both structurally and decoratively. 4. Lightweight Roof = Faster Construction Speed is essential, especially during Ramadan or speci...

  Modern industrial facilities like aircraft hangars, energy plants, and bulk warehouses require ultra-large spans. Traditional beams are costly and heavy. The solution? Space structures. 1. Spans of 60m, 80m, 100m+ Space structures easily achieve clear spans over 100 meters—without intermediate columns. Perfect for aircraft bays, cranes, or tall storage racks. 2. High Load-Bearing Capacity Despite being lightweight, space structures are incredibly strong—capable of supporting overhead conveyors, piping systems, and rooftop solar panels. 3. Rapid Fabrication and Erection Every component is prefabricated. On-site installation is fast, safe, and less weather-dependent—crucial for tight industrial project timelines. 4. Reduced Maintenance The triangle-based design of space structures offers exceptional stiffness, minimizing deflection and structural fatigue over time. 5. Expandable for Future Growth Many industrial clients prefer scalable buildings. Space structures allow easy latera...

 Sustainability is no longer a trend—it's a global standard. Architects and developers are seeking construction methods that reduce carbon footprint and increase long-term efficiency. Enter the space structure . 1. Lightweight Means Less Material Compared to traditional concrete or truss roofs, space structures use significantly less material—cutting down on steel usage and emissions during transport. 2. Ideal for Daylighting and Natural Ventilation With open grids and long spans, space structures can easily integrate skylights, louvers, and passive ventilation systems—reducing energy loads. 3. 100% Recyclable Steel Space structures are made from structural steel, which is fully recyclable. Even after decades, the material retains value and reduces landfill waste. 4. Lower Foundation Load = Less Concrete The lighter weight of space structures reduces the need for deep foundations, which means less excavation, cement, and emissions. 5. LEED and Green Building Certification F...

 Transport hubs are the gateways to cities. Their architecture must be spacious, iconic, and efficient. Space structures make it possible—offering large spans, natural light, and fast construction. 1. Seamless Passenger Flow with Clear Span Roofs Modern stations require uncluttered layouts. Space structures span terminals up to 150m wide—perfect for open ticketing halls, waiting areas, and platforms. 2. Skylights and Solar Panels? No Problem Space structures support integrated daylighting systems, reducing energy consumption while enhancing the passenger experience. 3. Future-Ready and Easy to Expand As cities grow, so do stations. Modular space structure designs make it easy to expand terminal areas or connect with adjacent structures. 4. Earthquake and Wind Resilience Transit hubs are critical infrastructure. Space structures perform reliably under seismic and wind loads, meeting all international safety codes. 5. Iconic Architecture for Civic Pride A dome-shaped or wave-like te...