Ecer asks for your consent to use your personal data to:
Personalised advertising and content, advertising and content measurement, audience research and services development
Store and/or access information on a device
Your personal data will be processed and information from your device (cookies, unique identifiers, and other device data) may be stored by, accessed by and shared with 135 TCF vendor(s) and 65 ad partner(s), or used specifically by this site or app.
Some vendors may process your personal data on the basis of legitimate interest, which you can object to by do not consent. Contact our platform customer service, you can also withdraw your consent.
High efficiency heat transfer tube ASTM A179 Carbon Steel Low Fin Tube
ASTM A179 carbon steel low fin tubes are designed for high-efficiency heat transfer applications. These tubes are manufactured from low-carbon steel according to ASTM A179 specifications, which ensure precise dimensions and uniform wall thickness. The addition of low fins significantly increases the surface area, enhancing heat transfer efficiency while maintaining a compact design. These tubes are ideal for use in heat exchangers, condensers, and other thermal systems requiring efficient heat transfer.
Chemical Composition
The chemical composition of ASTM A179 carbon steel tubes is designed to provide excellent thermal conductivity and mechanical properties. The typical composition includes:
Carbon (C): 0.06% - 0.18%
Manganese (Mn): 0.27% - 0.63%
Phosphorus (P): ≤ 0.035%
Sulfur (S): ≤ 0.035%
Mechanical Properties
ASTM A179 tubes possess mechanical properties that make them suitable for various industrial applications, ensuring durability and reliability under different operating conditions. Key mechanical properties include:
Tensile Strength: Minimum 325 MPa (47,000 psi)
Yield Strength: Minimum 180 MPa (26,000 psi)
Elongation: Minimum 35% in 2 inches (50 mm)
Advantages
Enhanced Heat Transfer: The low fins increase the surface area, significantly improving heat transfer efficiency.
Corrosion Resistance: The low-carbon steel composition provides good resistance to corrosion, extending the tube's lifespan.
Mechanical Strength: High tensile and yield strength ensure the tubes can withstand mechanical stresses and thermal cycling.
Compact Design: The low fin design allows for a more compact heat exchanger layout, saving space while maintaining efficiency.
Cost-Effective: Offers an excellent balance between performance and cost, making it a popular choice for many industrial applications.
Applications
Heat Exchangers: Widely used in shell and tube heat exchangers for efficient thermal management.
Condensers: Essential in power plants and HVAC systems for condensing steam into water.
Boilers: Used in boiler systems for generating steam and heating applications.
Chemical Processing: Employed in reactors and distillation columns for precise temperature control.
Oil and Gas Industry: Utilized in refineries and petrochemical plants for various heating and cooling processes.
Power Generation: Integral in power plants for waste heat recovery and other thermal processes.
Conclusion
ASTM A179 carbon steel low fin tubes are crucial for industries requiring efficient and reliable heat transfer. Their enhanced surface area, combined with the excellent thermal conductivity and mechanical properties of low-carbon steel, makes them an ideal choice for heat exchangers, condensers, boilers, and various other thermal systems. The combination of performance, durability, and cost-effectiveness ensures their widespread use across multiple applications.
YUHONG HOLDING GROUP is one of the largest Procurement, Engineering & Contracting Group companies in China. Our group branch company and factory have been already approved by : ABS, LR, DNV, GL, BV, CCS, KR, PED 97/23/EC, AD2000-WO, GOST9941-81, CCS, TS, CNNC, ISO9...
YUHONG HOLDING GROUP is one of the largest Procurement, Engineering & Contracting Group companies in China. Our group branch company and factory have been already approved by : ABS, LR, DNV, GL, BV, CCS, KR, PED 97/23/EC, AD2000-WO, GOST9941-81, CCS, TS, CNNC, ISO9...
