First, it is necessary to evaluate whether the material of the threaded rubber joint is compatible with the material of the pipeline system. The inner layer, reinforcement layer and outer layer of the rubber joint should be able to adapt to the chemical properties of the medium in the pipeline to avoid chemical reactions that may cause joint damage or medium contamination.
The working pressure of the threaded rubber joint should match the pressure of the pipeline system. It is necessary to ensure that the working pressure of the joint is not lower than the maximum working pressure of the pipeline system to prevent the joint from rupture or leakage due to excessive pressure.
The medium temperature in the pipeline system has an important impact on the performance of the rubber joint. It is necessary to evaluate whether the joint material can withstand the highest and lowest temperatures of the medium in the pipeline to avoid hardening, softening or rupture of the joint due to temperature changes.
The threaded rubber joint has the function of compensating for pipeline displacement. When evaluating compatibility, the displacement requirements of the pipeline system need to be considered to ensure that the joint can meet the axial, radial and angular displacement requirements of the pipeline.
The threaded connection method has the advantages of easy and quick installation. When evaluating compatibility, the installation method of the pipeline system needs to be considered to ensure that the threaded rubber joint can be smoothly connected with other parts of the pipeline system.
Sealing performance is a key indicator for evaluating the compatibility of threaded rubber joints with pipeline systems. The sealing effect of the joint needs to be verified through testing to ensure that no leakage occurs under medium pressure, temperature and other conditions.
Finally, the comprehensive performance of the threaded rubber joint needs to be evaluated, including corrosion resistance, aging resistance, fatigue resistance, etc. These properties directly affect the service life and reliability of the joint, and are also important factors in evaluating its compatibility with the pipeline system.
