- Project Name: Ningxia Sports Hub
- Location: Ningxia. High-Altitude, Semi-Arid Climate
- Scale: 6-8 Professional Standard Courts
- System Type: Professional 8mm Silicon PU (SPU) Multi-Layer System
- Visual Design: Dual-Tone Blue (Sky Blue and Deep Sea Blue)
- Visual Reference: See project picture for the completed aerial layout.
This multi-court outdoor Silicon PU basketball court project in Ningxia is purpose-built to withstand the region’s semi-arid climate, characterized by high UV radiation and significant temperature fluctuations. Constructed with a high-performance Silicon PU sports flooring system, these standardized interconnected courts feature a neat layout and bright, refreshing color scheme. They deliver professional-grade performance with excellent slip resistance, wear durability, and consistent ball rebound, while maintaining long-term stability in Ningxia’s harsh outdoor conditions. The facility creates a safe, vibrant public sports space for local residents to enjoy daily exercise and recreational activities.
We made sure this project hit every high standard, so it’s ready to be a great example of solid export quality worldwide.
|
Property |
Standard |
Technical Benefit |
|
UV Resistance |
No Chalking / No Cracking |
Long-term color retention in sunny regions. |
|
Temperature Range |
-40°C to 60°C |
Resilient in both freezing winters and scorching summers. |
|
Shock Absorption |
42% |
Professional-grade protection for athletes' joints. |
|
Eco-Friendly |
Zero VOC / Non-Toxic |
Safe for schools and public parks. |
Ningxia presents a unique challenge for outdoor sports flooring due to its strong UV radiation and dramatic temperature fluctuations between day and night. The surface must be flexible enough to handle thermal expansion while remaining color-stable.
Our Strategic Approach:
• UV-Stable Pigments
We use high-grade, UV-resistant organic pigments to ensure the vibrant blues seen in pictures stay fade-resistant under prolonged sunlight exposure.
• High Elasticity
The SPU buffer layer was optimized to absorb substrate movement caused by rapid temperature changes, preventing surface cracking.