 
 
1. Standards compliance
Ensure that the brace complies with national and local seismic design standards, such as the Code for Seismic Design of Buildings.
2. Material selection
Select high-strength and corrosion-resistant materials, such as galvanised steel and aluminium alloy, to improve seismic performance and service life.
3. Load-bearing capacity
Calculate the weight to be carried by the bracket, including the total weight of pipes, cables, etc., according to the actual application requirements, and make sure that the bracket’s load-bearing capacity is sufficient.
4. Design type
Select the suitable type of bracket according to the project requirements:
Fixed bracket: suitable for occasions where no adjustment is required.
Adjustable bracket: Allows angle adjustment to suit different installation needs.
Tracking bracket: For systems that need to track the sun or other dynamic objects.
5. Installation environment
Consider the special characteristics of the installation environment, such as indoor, outdoor, high humidity and other conditions, and select suitable protective measures.
6. Convenience of construction
The design of the bracket should facilitate quick installation and maintenance, reduce construction time and cost.
7. Product certification
Check whether the product has relevant certification, such as ISO certification, to ensure its quality and performance.
8. Manufacturer
Choose a reputable manufacturer and find out its reputation in the industry and after-sales service.
9. User feedback
Refer to the experience and feedback of other users to understand the performance of the product in practical applications.
10. Cost Consideration
Under the premise of guaranteeing quality and performance, make a reasonable cost assessment and choose the product with high cost performance.
By comprehensively considering these factors, you can more effectively choose the right seismic brace to ensure the safety and stability of your project.