| Customization: | Available |
|---|---|
| Connection: | Flange |
| Kind: | Corrugated Compensator |
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Introduction to Non - Metallic Compensators
Non - metallic compensators, also called expansion joints, are vital mechanical devices. They are crafted from non - metallic materials, unlike their metallic counterparts. These compensators are designed to address several critical issues in industrial systems.
Their primary function is to absorb thermal expansion and contraction. Pipelines expand when heated and contract when cooled. Non - metallic compensators stretch or compress to accommodate these changes, preventing stress - related damage. For instance, in power plants' steam pipelines with high - temperature steam, they play a crucial role.
Moreover, they are effective in isolating vibrations. Machinery like pumps and compressors generate vibrations that can harm pipelines. The flexible nature of non - metallic compensators dampens these vibrations. In chemical plants, they safeguard pipelines connected to large pumps.
There are different types. Fabric - reinforced compensators, made by layering fabric and elastomers, are highly flexible and used in HVAC systems. Elastomeric compensators, composed of rubber - like materials, are great for noise reduction in small - to - medium - sized engine exhausts. PTFE - based compensators, known for their excellent chemical resistance, are used in the chemical industry.
Non - metallic compensators find applications in power generation, chemical industry, HVAC systems, and the automotive industry. They offer advantages such as excellent corrosion resistance, high flexibility, good vibration and noise isolation, and are lightweight for easy installation. In summary, they are essential for ensuring the smooth operation of various industrial and building systems.
| model | length(mm) | width(mm) | high(mm) | Axialcompensation(mm) | Lateralcompensation(mm) | Angularcompensation(°) | Temperature resistance(ºC) | Applicable media | |
| FJ - 100 | 500 | 400 | 300 | ±20 | ±15 | ±5 | -20 - 250 | Air, smoke, water vapor, etc. | |
| FJ - 200 | 600 | 500 | 400 | ±30 | ±20 | ±8 | -20 - 300 | Air, some corrosive gases | |
| FJ - 300 | 700 | 600 | 500 | ±40 | ±25 | ±10 | -20 - 350 | High temperature flue gas, hot air | |
| FJ - 400 | 800 | 700 | 600 | ±50 | ±30 | ±12 | -20 - 400 | High temperature and high pressure steam, special industrial waste gas | |
| FJ - 500 | 900 | 800 | 700 | ±60 | ±35 | ±15 | -20 - 450 | High temperature gas containing a small amount of dust | |
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