Rubber joints come in various materials, but special materials are generally required when handling oily or greasy media.
Under normal circumstances, prolonged contact between oily solutions and natural rubber can cause the rubber molecules to loosen, resulting in localized expansion of the spherical surface. In such cases, installing a flow guide tube inside the rubber joint provides optimal resistance to high temperatures, oil, and pressure. Without a flow guide tube, the product's pressure-bearing capacity can be insufficient, posing a potential hazard to the stable operation of the pipeline.
Using oil-resistant pipeline-specific rubber joints effectively solves this technical problem because nitrile rubber has excellent oil resistance and, while ensuring sufficient pressure-bearing capacity, fully meets the installation requirements of various oil pipelines.
When installed on pipelines, this product provides excellent displacement compensation for thermal expansion and contraction caused by geographical location and climate during operation. Furthermore, as a rubber joint is an elastomer, it not only compensates for axial displacement but also for lateral and angular displacement, effectively mitigating the adverse effects of multi-directional pipeline displacement and thus improving the stability of pipeline operation.
Rubber joints come in various materials, but special materials are generally required when handling oily or greasy media.
Under normal circumstances, prolonged contact between oily solutions and natural rubber can cause the rubber molecules to loosen, resulting in localized expansion of the spherical surface. In such cases, installing a flow guide tube inside the rubber joint provides optimal resistance to high temperatures, oil, and pressure. Without a flow guide tube, the product's pressure-bearing capacity can be insufficient, posing a potential hazard to the stable operation of the pipeline.
Using oil-resistant pipeline-specific rubber joints effectively solves this technical problem because nitrile rubber has excellent oil resistance and, while ensuring sufficient pressure-bearing capacity, fully meets the installation requirements of various oil pipelines.
When installed on pipelines, this product provides excellent displacement compensation for thermal expansion and contraction caused by geographical location and climate during operation. Furthermore, as a rubber joint is an elastomer, it not only compensates for axial displacement but also for lateral and angular displacement, effectively mitigating the adverse effects of multi-directional pipeline displacement and thus improving the stability of pipeline operation.
