The steel structure factory building project in Saudi Arabia is about to be dispatched
Project name: Indonesian Steel Structure Apartment Project
Project size: 40000㎡

Key design points for large-span steel structure factory project
The design of large-span steel structure factory buildings is a complex and rigorous task that requires comprehensive consideration of multiple factors to ensure the safety, practicality, and economy of the structure. The following are the design points summarized based on existing data:
1. Functional requirement analysis
Before designing, it is necessary to first clarify the functional requirements of the factory building. This includes the purpose of the factory building, internal layout, equipment configuration, etc. By communicating with the owner and understanding their actual needs, various factors can be fully considered in the design process to ensure the rationality and feasibility of the design scheme.
2. Selection of structural form
Common structural forms include frame structure, grid structure, and rigid frame structure. Select the most suitable structural form based on factors such as the functional use, load conditions, and geological conditions of the factory building.
The frame structure is suitable for smaller span factories and has advantages such as structural stability and convenient construction.
The grid structure is suitable for large-span spatial design, which can effectively reduce the number of columns and improve the utilization of space.
The rigid frame structure has a simple shape and easy construction, and is widely used in industrial plants.
3. Load calculation
Accurate load calculation is the foundation for ensuring the safety of factory structures.
4. Node design
Nodes are key parts that connect various components in steel structure factories, and the rationality of their design directly affects the overall performance of the structure. Common forms of nodes include welded nodes, bolted connections, etc. Suitable connection methods should be selected based on the stress characteristics and usage requirements of the nodes, and detailed node calculations and structural designs should be carried out.
5. Fire and anti-corrosion design
Steel structures are prone to losing strength and stability at high temperatures, and are also susceptible to corrosion. Therefore, fire prevention and anti-corrosion design are essential aspects that cannot be ignored.
Fireproof treatment should be carried out on steel structural components according to the nature of use of the factory and relevant regulatory requirements, such as applying fireproof coatings.
At the same time, effective anti-corrosion measures should be taken, such as hot-dip galvanizing, spraying anti-corrosion paint, etc., to extend the service life of the structure.
6. Material selection
Steel is an important component of steel structures, and the selection of steel not only affects the safety performance of the structure, but also affects the economy of construction. Suitable types of steel should be selected based on the usage environment of the factory, such as hot-rolled steel, cold-formed thin-walled steel, etc., and their corrosion resistance and strength indicators should be considered.
7. Follow norms and standards
The design of steel structures must comply with relevant national and industry regulations and standards.
8. Environmental Protection and Energy Conservation
In the design process, requirements for durability, fire resistance, and corrosion resistance of the structure should also be considered. In addition, modern industrial buildings are increasingly focusing on energy conservation and environmental protection, so design should also consider how to reduce energy consumption and environmental pollution.