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The increasing concern of the environmental impact of hydrofluorocarbon (HFC) refrigerants, as well as the more stringent environmental regulations, have prompted a re-emergence of carbon dioxide (CO₂) based refrigeration systems. CO₂ refrigerant is used as a working fluid in many climate control systems, in applications such as commercial refrigeration, hot water pumps, vending machines, etc. The supermarket industry in particular, implemented an ecological and efficient store concept by successfully embracing advanced CO₂ refrigeration technologies developed by refrigeration system manufacturers.

CO₂ as a refrigerant

CO₂ (R-744) refrigerant is termed a “natural” refrigerant because it exists in the natural environment. Released from refrigeration systems into the atmosphere, CO₂ has a negligible effect to global warming and thus is not under any regulatory restrictions, as is the case for CFC, HCFC and HFC refrigerants.
In addition to its environmental-friendly character, CO₂ is currently viewed as a viable solution for low-temperature refrigeration applications because it is non-ozone depleting, non-toxic, non-flammable and has a high volumetric cooling capacity. However due to its physical properties, CO₂ based refrigeration systems request much higher pressure, compared to conventional systems. The design pressure of such systems can be 120/130bar in the trans-critical cycle. CO₂ meets the demand for a low-global warming potential (GWP) refrigerant, but presents challenges in both its application and handling. The higher operating pressure and broad temperature fluctuations require that all the system components, including piping, should be designed accordingly.

Extra-Strong TALOS XS tubes for high-pressure systems

TALOS XS tubes are manufactured using a high strength copper-alloy (CuFe2P) material, in order to satisfy the demands of today’s high-pressure CO₂ systems in refrigeration, as well as, other high-pressure HVAC&R applications. TALOS XS tubes are designed to withstand high operating pressures of up to 120/130bar. At the same time, TALOS XS tubes are manufactured with comparatively thinner walls and thus achieve an economical advantage that meets the pressure equipment design. The well-known installation practices of refrigeration copper tubes are followed also for the case of TALOS XS tubes, both in systems and in the field (see relative EN378 standard for guidelines). Since the processing methodology remains essentially the same, existing tooling and handling equipment are utilized. This includes brazing with standardized silver braze alloy (min. silver content of 2%), bending with traditional tools and joining with standardized fittings made from copper alloy (CuFe2P).

TALOS XS Product Features

  • Ideally suitable for CO2 refrigeration applications
  • Made from Extra-Strong Copper-Iron (CuFe2P) alloy
  • Cost-effective and lightweight, manufactured with comparatively thinner walls
  • Traditional processing techniques and equipment
  • Compatible with existing fittings, made of the same alloy
  • Clearly marked and easily identified


Copper-iron alloy (CuFe2P) with chemical composition according to EN12449 (CW107C) and UNS C19400


Dimensional Tolerances: Internal production specifications, EN 12735-1

Internal Cleanliness: EN 12735-1

Mechanical Properties: R300 acc. to EN 12735-1 and VdTÜV WB567, R420 acc. to EN12735-1 upon request

Form of supply: Straight lengths with end-caps, in bundles or wooden cases

Marking: e.g. Halcor TALOS-XS 9.52×0.65 CuFe2P R300 130bar/1885psi EN12735-1

TALOSXS for up to 130bar1

Outside DiameterWall ThicknessTemperLength2
(mm)(inch)(mm)(inch)(mm)(inch) (m)(feet)
9.523 / 8″0.560.0220.650.026R300516.4
12.71 / 2″0.750.0300.850.033R300516.4
15.875 / 8″0.930.0371.050.041R300516.4
19.053 / 4″1.190.0461.300.051R300516.4
22.237 / 8″1.380.0541.500.059R300516.4
28.571 1 / 8″1.780.0701.900.075R300516.4
34.921 3 / 8″2.170.0852.300.091R300516.4
41.271 5 / 8″2.560.1002.700.106R300516.4
53.972 1 / 8″3.350.1313.550.140R300516.4
66.672 5 / 8″4.140.1634.450.175R300516.4

1 Maximum Allowable Pressure of 120bar (1740psi) and 130bar (1885psi) up to 150°C (302°F) and down to -196°C (-320°F) calculated acc. to EN14276:2020.

2 Additional lengths are available upon request.