| Customization: | Available |
|---|---|
| Connection: | Flange |
| Kind: | Corrugated Compensator |
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Introduction to Non-Metallic Compensators
Discover the world of Non-Metallic Compensators, also known as expansion joints, which are indispensable in mechanical engineering. Crafted with precision from high-quality non-metallic materials, these compensators stand as a distinguished alternative to their metallic peers. Engineered to tackle a range of critical challenges within industrial systems, they offer unmatched performance and reliability.
The remarkable capability of non-metallic compensators to absorb thermal expansion and contraction is their key feature. As pipelines heat up, they expand, and as they cool, they contract. These compensators elegantly stretch or compress, seamlessly accommodating these fluctuations to avert stress-related damages. For example, in the rigorous environments of power plants, they play a pivotal role in safeguarding high-temperature steam pipelines, ensuring efficiency and durability.
Beyond their thermal management capabilities, non-metallic compensators excel in mitigating vibrations. Equipment such as pumps and compressors can produce vibrations that pose a risk to pipelines. Thanks to their flexible design, these compensators effectively dampen such vibrations. In chemical plants, they are invaluable for protecting pipelines linked to powerful pumps, ensuring longevity and operational integrity.
Explore the variety of non-metallic compensators available. Fabric-reinforced compensators, meticulously layered with fabric and elastomers, provide exceptional flexibility and are ideal for HVAC systems. Elastomeric compensators, crafted from rubber-like materials, offer superior noise reduction for small-to-medium-sized engine exhausts. PTFE-based compensators, celebrated for their outstanding chemical resistance, are perfect for applications in the chemical industry.
Non-metallic compensators are versatile solutions applicable across diverse sectors including power generation, chemical processing, HVAC systems, and the automotive industry. With advantages that include top-tier corrosion resistance, high flexibility, and excellent vibration and noise isolation, they are designed for lightweight and easy installation. In conclusion, these compensators are indispensable for maintaining the smooth operation of numerous industrial and building systems, ensuring both safety and efficiency.
| 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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