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Theoretical research and experimental verification: precise analysis of stability factors

The company's R&D team has invested a lot of energy and applied theories of material mechanics and structural mechanics to conduct an in-depth analysis of the stability of conical steel pipes. Starting from the construction of theoretical models, the influence mechanism of key factors such as material properties, diameter variation laws, wall thickness distribution, and length of steel pipes on stability has been fully considered. Through precise mathematical derivation and simulation calculations, the complex interrelationships between various parameters have been clarified, providing solid theoretical guidance for subsequent experimental research.

In the experimental verification phase, we established a professional testing platform equipped with high-precision strain gauges, displacement sensors, and loading equipment. Stability tests were conducted on conical steel pipe samples of different specifications and materials under various working conditions, including axial compression, bending, and torsion.

Optimization design strategy: win-win situation of improving stability and reducing costs

In the product design phase, by precisely adjusting the gradient parameters of the pipe diameter, it is possible to reasonably reduce the amount of steel used while meeting specific stability requirements.