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EspañolIn the design and production process of oxygen cylinder pressure reducing valves, it is crucial to ensure that they can maintain good sealing performance and flow stability in high-pressure environments. To achieve this goal, we select high-performance sealing materials. The choice of sealing material is directly related to the sealing performance of the pressure reducing valve. We have undergone strict screening and testing, and selected sealing materials with excellent pressure resistance, wear resistance, and corrosion resistance, such as polytetrafluoroethylene (PTFE), special rubber, etc. These materials can maintain a stable sealing effect under high pressure differentials, effectively preventing oxygen leakage.
The internal structure of the pressure reducing valve is complex and requires high-precision machining to ensure a tight and seamless fit between the various components. We introduce advanced processing equipment and technology to perform precision machining on key components such as the valve body, valve core, and sealing ring of the pressure reducing valve, ensuring that the dimensional accuracy and surface roughness meet the design requirements. At the same time, we also strictly control the quality of the processing to ensure that every step meets the standards.
In addition, we also focus on product testing and validation. During the production process, we will conduct multiple tests and verifications on the pressure reducing valve, including sealing tests, flow stability tests, pressure resistance tests, etc. These tests can comprehensively evaluate the performance indicators of the pressure reducing valve, ensuring that it can meet the requirements in practical use. Especially in high-pressure environments, we use specialized testing equipment to simulate actual working conditions and focus on examining the sealing performance and flow stability of pressure reducing valves.
