More and more industrial enterprises are utilizing seamless pipes. Some have discovered that corrosion may occur during the use of these materials. The responsible parties in these companies are eager to understand why corrosion happens and how to address it effectively during transportation. It's widely known that most seamless pipes currently used by companies consist of two critical components: the transport sensor and the transport converter. These include the original transport parts, electrode coils, and the housing, among others.
Industry professionals explain that during the transportation process, the transmission signals generated by seamless pipes are very weak. Therefore, it is crucial to ensure that the key parts of the pipes are properly grounded and remain unobstructed. The transported liquid should also be conductive and should not contain excessive ferromagnetic materials or bubbles. Consequently, one common reason for transportation errors in the use of pipes by some companies is that the liquid being transported may have poor conductivity, which can lead to instability in the pipe transportation. Additionally, if the liquid has not been pre-treated and contains a high amount of ferromagnetic materials or bubbles, this can also cause pipe transportation blockages.
Industry professionals also offer the following advice: Before using piping materials for transportation, it's essential to pre-treat the transport medium. On one hand, treating the medium enhances its conductivity, which aids in more accurate transportation of the piping materials. On the other hand, pre-treating involves removing ferromagnetic substances from the medium to avoid significant impacts on the transportation process due to excessive impurities. Additionally, when installing seamless pipes, it's advisable to keep them away from areas with vibrations or strong magnetic fields, and to avoid errors in transportation due to improper installation. By ensuring these aspects, the reliability of the piping materials remains stable.
