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High Thermal Conductivity Red Copper Coil
  • High Thermal Conductivity Red Copper CoilHigh Thermal Conductivity Red Copper Coil
  • High Thermal Conductivity Red Copper CoilHigh Thermal Conductivity Red Copper Coil
  • High Thermal Conductivity Red Copper CoilHigh Thermal Conductivity Red Copper Coil
  • High Thermal Conductivity Red Copper CoilHigh Thermal Conductivity Red Copper Coil
  • High Thermal Conductivity Red Copper CoilHigh Thermal Conductivity Red Copper Coil
  • High Thermal Conductivity Red Copper CoilHigh Thermal Conductivity Red Copper Coil

High Thermal Conductivity Red Copper Coil

Zenko factory's High Thermal Conductivity Red Copper Coil is precision-manufactured from 99.9%+ pure C1100/C1220 red copper, delivering exceptional heat transfer performance for demanding thermal management applications. With thermal conductivity up to 401 W/(m·K), Zenko red copper coils outperform brass, aluminum, and stainless steel alternatives, making them the ideal choice for heat exchangers, cooling systems, thermal processors, and industrial refrigeration. Precision-drawn tube walls ensure consistent thermal performance, while vacuum annealing eliminates internal stresses for optimal dimensional stability.

Buy quality High Thermal Conductivity Red Copper Coil from Zenko, a professional manufacturer in China. It refers to copper tube coils produced from high-purity red copper that exhibit maximum thermal conductivity. Thermal conductivity measures how efficiently heat transfers through a material—higher values mean faster and more efficient heat dissipation. Zenko High Thermal Conductivity Red Copper Coils are manufactured from C1100/C1220 red copper with 99.9%+ purity, achieving thermal conductivity values of 385–401 W/(m·K), among the highest of all commercial metals. This makes them essential components in any application where efficient heat transfer is critical.

Material Comparison: Copper vs. Other Metals

Material

Thermal Conductivity W/(m·K)

Relative to Red Copper

Typical Applications

Red Copper (C1100)

385–401

100% (Baseline)

Heat exchangers, cooling systems

Aluminum (6061)

167–202

~50%

Lightweight heat sinks

Brass (C2700)

109–125

~30%

Plumbing, decorative

Stainless Steel (304)

14–16

~4%

Corrosive environments

Carbon Steel

45–65

~15%

Structural applications


Zenko red copper coils deliver thermal conductivity up to 2× aluminum, 3× brass, and 25× stainless steel—making them the premium choice for high-performance thermal applications.

Key Properties of Zenko High Thermal Conductivity Red Copper Coil

●Material:  C1100 / C1220 Red Copper

●Purity:  99.9%+ minimum, ensuring maximum thermal performance

●Thermal Conductivity:  385–401 W/(m·K) at 20°C

●Electrical Conductivity:  100% IACS minimum

●Density:  8.89–8.94 g/cm³

●Melting Point:  1083°C

●Coefficient of Thermal Expansion:  17.0 × 10⁻⁶ /K (20–100°C)

●Specific Heat Capacity:  385 J/(kg·K)


High Thermal Conductivity Red Copper CoilHigh Thermal Conductivity Red Copper Coil


Applications Across Industries

●HVAC & Refrigeration: Condenser coils, evaporator coils, heat pump heat exchangers, chiller cooling loops.

●Industrial Heat Exchange: Shell-and-tube exchangers, plate heat exchangers, process cooling systems.

●Power Generation: Generator cooling, transformer thermal management, inverter heat dissipation.

●Chemical Processing: Process heating/cooling coils, reactor temperature control, distillation columns.

●Electronics Cooling: Server rack cooling, power electronics heat sinks, LED thermal management.

●Food & Beverage: Pasteurization coils, fermentation temperature control, freeze-drying equipment.


High Thermal Conductivity Red Copper CoilHigh Thermal Conductivity Red Copper Coil


Factors Affecting Thermal Performance

Factor

Impact on Thermal Conductivity

Copper Purity

Higher purity = higher conductivity. Impurities like oxygen, phosphorus, and arsenic reduce thermal performance. Zenko uses 99.9%+ pure copper.

Grain Structure

Fine, uniform grain structure from proper annealing improves heat transfer. Vacuum annealing ensures optimal grain refinement.

Surface Condition

Clean, oxide-free surfaces maximize contact thermal conductivity. Ultrasonic cleaning removes contaminants.

Tube Wall Thickness

Thinner walls reduce thermal resistance but must balance mechanical strength. Zenko offers 0.1–5mm wall thickness.

Operating Temperature

Thermal conductivity decreases slightly at higher temperatures. Zenko copper maintains high conductivity across operating range.

 

ZenkoHigh Thermal Conductivity Red Copper Coil — When thermal performance is non-negotiable.

 

Non-Insulated Butt connector (Sizes can be customized)
Material:Red Copper(C1100/C1220/C1010)
Dimension(mm) High Thermal Conductivity Red Copper Coil
D(mm) 0.8 - 40
d1(mm) 0.5 - 30
T( mm) 0.1-5
Packing  25kgs/ roll, 50kg/roll
Hardness and State Y (HV90-110)
Remark: Accept custom orders of any size


High Thermal Conductivity Red Copper Coil


Specification D(mm) d1(mm) T(mm)
1.0*0.8 1 0.8 0.15
1.1*0.86 1.1 0.86 0.12
1.1*0.80 1.1 0.8 0.15
1.3*1.0 1.3 1 0.15
1.3*1.1 1.3 1.1 0.1
1.5*1.2 1.5 1.2 0.15
1.7*1.5 1.7 1.5 0.15
2.0*1.7 2 1.7 0.15
2.08*1.78 2.08 1.78 0.15
2.1*1.8 2.1 1.8 0.15
2.3*2.0 2.3 2 0.15
2.6*2.3 2.6 2.3 0.15
3.2*2.8 3.2 2.8 0.2
3.28*2.98 3.28 2.98 0.15
3.9*3.5 3.9 3.5 0.2
4.05*3.65 4.05 3.65 0.2
4.1*3.7 4.1 3.7 0.2
4.9*4.5 4.9 4.5 0.2
6.2*5.8 6.2 5.8 0.2
5.05*4.65 5.05 4.65 0.2
6.35*5.95 6.35 5.95 0.2
6.4*6 6.4 6 0.2
7.85*7.45 7.85 7.45 0.2
7.9*7.5 7.9 7.5 0.2
8.8*8.4 8.8 8.4 0.2
8.7*8.3 8.7 8.3 0.2






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