ASTM B111 / ASME SB111 C12200 Copper Nickel Tube for Condenser Heat Exchanger

ASTM B111 / ASME SB111 C12200 Copper Nickel Tube for Condenser and Heat Exchanger Application

ASTM B111 is a standard developed by the American Society for Testing and Materials, which specifically specifies technical requirements for the chemical composition, mechanical properties, dimensional tolerances, non-destructive testing, hydrostatic testing, and other aspects of seamless copper and copper alloy tubes used in the manufacture of condensers, evaporators, and heat exchangers. C12200 is a specific copper alloy grade specified under this standard, belonging to phosphorus deoxidized copper, which is a low residual phosphorus oxygen free copper.

Why is ASTM B111 C12200 Copper Nickel Tube widely used in the Heat Exchange Industry? 

• Excellent thermal conductivity: Copper has excellent thermal conductivity, second only to silver, while C12200 copper nickel tube has a very high thermal conductivity coefficient (about 391 W/m · K), which is the core advantage of making it a heat exchange tube such as condenser and heat exchange tube, capable of efficiently transferring heat.
• Good corrosion resistance: C12200 copper nickel tube not only has good corrosion resistance and can maintain excellent performance in fresh water and steam condensate water, but also has good resistance to zinc removal corrosion and stress corrosion cracking, both of which are due to phosphorus element. Resistance to zinc removal corrosion is a significant advantage of phosphorus containing deoxidized copper such as C12200 compared to oxygen free copper such as C10200/C10100. In environments containing dissolved oxygen and carbon dioxide in brackish water, seawater, or certain water treatment chemicals, ordinary copper nickel tubes are prone to zinc removal due to the selective dissolution of zinc, leaving behind porous and fragile copper structures. The phosphorus in C12200 can effectively prevent this corrosion form from occurring, while also improving the stress corrosion cracking resistance of copper pipes in specific media environments such as ammonia.
• Good welding and brazing performance: The presence of phosphorus improves the welding and brazing performance of copper pipes, making it easier to perform tube plate connections during the manufacturing of heat exchangers.

• Good mechanical and processing properties: C12200 copper nickel tubes have sufficient strength, hardness, and ductility, making them easy to bend, expand, and form to meet installation requirements.

• Good ductility and toughness: C12200 copper nickel tubes can maintain good toughness even at lower temperatures.

• Conductivity: Due to the presence of phosphorus impurities, although the conductivity of C12200 copper nickel tube is slightly lower than that of oxygen free copper such as C10200/C10100, its conductivity is still very high, about 85-90% IACS, which is sufficient to meet the needs of the vast majority of heat exchange applications.

ASTM B111 C12200 Copper Nickel Tube Chemical Composition

What is the difference between ASTM B111 C12200 Copper Nickel Tube and other Copper Nickel Tubes?

• Vs C11000 (ETP Copper electrolytic tough copper): C11000 has a higher oxygen content (0.02% -0.04%), which may cause hydrogen embrittlement in reducing atmospheres such as hydrogen, and its resistance to zinc removal corrosion is not as good as C12200. C12200, due to deoxidation treatment, avoids hydrogen embrittlement problems and has better resistance to zinc removal, making it a better choice for condenser tubes.
• Vs C10200/C10100 (Oxygen Free Copper): Oxygen free copper has the highest electrical and thermal conductivity, close to 100% IACS, and good resistance to hydrogen embrittlement, but its resistance to zinc removal corrosion is not as good as C12200. C10200/C10100 oxygen free copper is usually more expensive and is commonly used in situations where high conductivity is required for conductors or in environments that are extremely sensitive to hydrogen embrittlement.
• VS copper alloy tubes (such as naval brass C44300, C68700 aluminum brass, CuNi 70/30, CuNi 90/10): These alloy copper tubes have better corrosion resistance in seawater or more harsh environments, especially in terms of erosion corrosion resistance and seawater corrosion resistance, but lower thermal conductivity than C12200 and higher production costs. C12200 is more cost-effective in freshwater, brackish water, or relatively mild seawater environments.

What industries are ASTM B111 C12200 Copper Nickel Tubes mainly used in?

• Power plant condenser: This is the largest and most classic application of ASTM B111 C12200 copper pipes, mainly used to condense and return the exhaust steam from the turbine.

• Ship condensers and heat exchangers: ASTM B111 C12200 copper pipes can be used for condensation and various cooling systems in ship power plants.

• Heat exchangers in petrochemical, chemical, and industrial processes: ASTM B111 C12200 can be used for cooling process fluids, heating media, etc.

• Evaporators and condensers in HVAC systems, especially in chillers and large systems.

• Refrigeration equipment: such as heat exchange components for large cold storage and industrial refrigeration machines.

• Other heat exchange applications that require high thermal conductivity, corrosion resistance, and good formability.