0086-13780636866 / 0086-17806251160 lisa@qdxgz.cn 0086-13780636866
 |
| Quantity: | |
|---|---|
Prefabricated Steel Structure Workshop Building Solution
Product introduction of steel structure workshop:
The project took seven months to complete successfully, 21 XGZ people did a great job there!
Professional technique solution and installation service got highly recognized from customers!
 |  |  |
Design stage solution
1.Modular design
•Three-dimensional modeling is carried out by using BIM (Building Information Modeling) to optimize details such as beam-column nodes and connectors, and reduce on-site welding volume.
•Standardize the dimensions of components and achieve factory prefabrication production (such as box columns and H-shaped steel beams), shortening the construction period by more than 30%.
2.Optimization for earthquake and wind resistance
•Seismic loads are simulated through finite element analysis (FEA), and buckling constraint bracing (BRB) or damper systems are designed.
•For high-rise buildings, a dual anti-lateral force system of core tube and outer frame is adopted, and the aerodynamic stability is verified by wind tunnel tests.
3.Fireproof and anti-corrosion design
•Fireproof coatings (such as intumescent coatings) should meet the fire resistance limit of 2 to 3 hours, and key parts should be wrapped with fireproof boards.
•Hot-dip galvanizing or spraying zinc-aluminum coating (≥80μm) is suitable for corrosive environments (such as coastal areas).
Prefabricated Steel Structure Workshop Building Solution
Product introduction of steel structure workshop:
The project took seven months to complete successfully, 21 XGZ people did a great job there!
Professional technique solution and installation service got highly recognized from customers!
| | |
Design stage solution
1.Modular design
•Three-dimensional modeling is carried out by using BIM (Building Information Modeling) to optimize details such as beam-column nodes and connectors, and reduce on-site welding volume.
•Standardize the dimensions of components and achieve factory prefabrication production (such as box columns and H-shaped steel beams), shortening the construction period by more than 30%.
2.Optimization for earthquake and wind resistance
•Seismic loads are simulated through finite element analysis (FEA), and buckling constraint bracing (BRB) or damper systems are designed.
•For high-rise buildings, a dual anti-lateral force system of core tube and outer frame is adopted, and the aerodynamic stability is verified by wind tunnel tests.
3.Fireproof and anti-corrosion design
•Fireproof coatings (such as intumescent coatings) should meet the fire resistance limit of 2 to 3 hours, and key parts should be wrapped with fireproof boards.
•Hot-dip galvanizing or spraying zinc-aluminum coating (≥80μm) is suitable for corrosive environments (such as coastal areas).
