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Applications of EN 10217-7 1.4301 Extruded Fin Tube with Al 1060 Fins in Industrial Heating/Heat Exc

Extruded Fin Tube
January 15, 2026
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Brief: Want to know how EN 10217-7 1.4301 extruded fin tubes with Al 1060 fins deliver superior performance in industrial heating and heat exchange systems? In this video, we walk you through their real-world applications across petrochemical, power generation, and HVAC sectors. You'll see how their unique construction enhances heat transfer efficiency and durability, while we explain the material properties that make them a reliable choice for demanding environments.
Related Product Features:
  • Expands heat exchange area by several to dozens of times compared to bare tubes, enabling enhanced heat transfer.
  • Increases heat exchange efficiency by 40% to 60% in industrial systems when replacing bare tubes, leading to significant energy savings.
  • Features excellent corrosion resistance due to 18% Chromium and 8% Nickel content, forming a protective oxide film.
  • Provides reliable performance in temperature ranges from -196°C to 800°C, adapting to various industrial conditions.
  • Ensures strong mechanical properties with tensile strength of 520-720 MPa and elongation of at least 40%.
  • Offers hygienic and aesthetic qualities with a smooth, scale-resistant surface suitable for food and pharmaceutical applications.
  • Maintains operational stability across diverse climates, from dry cold to humid environments.
  • Complies with EN 10217-7 pressure standards, ensuring inherent safety and reliability under pressure.
FAQs:
  • What industries commonly use EN 10217-7 1.4301 extruded fin tubes?
    These fin tubes are widely used in petrochemical, power generation, metallurgy, HVAC systems, and food drying industries for process heat exchange and waste heat recovery applications.
  • How does the fin tube design improve heat transfer efficiency?
    The fin structure expands the effective heat exchange area by several to dozens of times compared to bare tubes, and when combined with forced convection, can increase heat transfer efficiency by 3 to 5 times, improving overall system efficiency by 40-60%.
  • What are the temperature limits for this fin tube material?
    The 1.4301 material can maintain its properties within a temperature range of -196°C to 800°C, though the sensitization range should be considered for specific applications.
  • How does the corrosion resistance compare to carbon steel?
    The 18% Chromium and 8% Nickel composition forms a dense chromium oxide film that provides effective corrosion resistance, extending service life by 3 to 5 times compared to carbon steel equipment in harsh environments.
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