1
Structural Design's Role in Pressure Withstandment
- The cubic structure ensures even stress distribution across all surfaces, dispersing internal pressure effectively.
- Corners are treated with smooth transition design to reduce pressure buildup at critical points.
- Internal reinforcing ribs enhance structural stability and overall pressure resistance.
- This design prevents deformation or leakage when subjected to internal pressure.
2
Material Properties Determine Basic Pressure Resistance
- Material choice is the core factor determining pressure resistance upper limits.
- Most tanks use high-strength, corrosion-resistant materials with excellent mechanical strength and toughness.
- These materials withstand stretching and compression caused by internal fuel pressure.
- High-end products use composite materials that balance pressure resistance with lightweight and anti-aging properties.
3
Impact of Operating Environment on Pressure Bearing Capacity
- Operating environment directly affects actual pressure bearing capacity in real-world conditions.
- In high-temperature environments, material strength may decrease, reducing pressure bearing capacity.
- External impacts like collisions and compression can indirectly increase internal pressure load.
- Environmental corrosive substances can erode the tank and weaken material properties, affecting pressure capacity.
4
Testing Standards Ensure Pressure Bearing Stability
- Strict testing standards are crucial for ensuring pressure bearing capacity and safety.
- Tanks undergo rigorous pressure testing simulating real-world scenarios during production.
- Testing includes static pressure bearing and dynamic pressure fluctuation tests for various conditions.
- Tanks meeting industry standards have fully verified pressure capacity, reducing safety risks from pressure overload.