CuNi10Fe1Mn | CW352H Material Datasheet
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| Material Number | Material Number (single) | Standard | Range of Application | Standard Status | Country | Predecessor | Successor | Remark |
|---|---|---|---|---|---|---|---|---|
| CW352H (DIN EN 12163 : 2011-08) | CW352H | DIN EN 12163 : 2011-08 | DIN EN 12163 : 2011-08 replaced by DIN EN 12163 : 2016-11 | Replaced | Germany | CuNi10Fe1Mn | CuNi10Fe1Mn | CuNi10Fe1Mn (CW352H) is comparable to CuNi10Fe1Mn, mat. no. 2.0872, acc. to DIN 17664 : 1983-12. The material shows favorable specific strength values also at endurance loading and increased temperatures. Thermal conductivity of pure copper is strongly reduced by Ni, the electrical resistance strongly increases according to the Ni-content. Fe-addition increases the corrosion resistance. CuNi10Fe1Mn is resistant to seawater, alkaline saline solutions and non-oxidizing acids. warm forming: good cold forming: very good machinability: unfavorable hard soldering: very good soft soldering: very good gas-shielded welding: very good burnishing: good Application: For seawater pipilines, tubes and plates for all types of tubular heat-exchanger (condenser, cooler, seawater evaporators, high pressure feeder water heater) on ships, in power plants, seawater desalination plants, chemical and sugar factories. |
Chemical Composition
| C [%] | Co [%] | Fe [%] | Mn [%] | Ni [%] | P [%] | Pb [%] | S [%] | Sn [%] | Zn [%] | Source | Remark |
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Mechanical Properties
| Semi-finished Product | Strength Abbrevation | Nominal Size [mm] | Temperature [°C] | Tensile Strength [MPa] | Yield Strength (0.2% offset) [MPa] | Elongation A100 [%] | Elongation A11,3 [%] | Elongation A [%] | Hardness HB | HBW | Source | Remark |
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Physical Properties
| Condition | Temperature [°C] | Melting Temperature [°C] | Density [g/cm³] | Young's Modulus [GPa] | Shear Modulus [GPa] | Mean Coefficient of Thermal Expansion [10^-6*K^-1] | Thermal Conductivity [W/(m*K)] | Specific Electrical Resistance [µΩm] | Mean Specific Heat Capacity [kJ/(kg*K)] | Electric Conductivity [MS/m] | Source |
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Young's Modulus [GPa] vs Temperature [°C]
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| Condition | Temperature [°C] | Creep Tensile Strength at 10³ h [MPa] | Creep Tensile Strength at 10^4 h [MPa] | 1% Creep Limit at 10³ h [MPa] | 1% Creep Limit at 10^4 h [MPa] | Source | Remark |
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Cross Reference
| Material Name | Country | Standard |
|---|---|---|
| 706 | Australia | AS 2738-2 |
| BFe10-1-1 | China | GB/T 5234 |
| CuNi10Fe1Mn | Europe | EN 12163 |
| CuNi10Fe1Mn | International | ISO 429 |
| MNZMc10-1-1 | Russia | GOST 492 |
| C70600 | USA | UNS |
| B122 UNS C70600 | USA | ASTM B122 |
| B151 UNS C70600 | USA | ASTM B151 |
| C70610 | USA | UNS |
| CuNi10Fe1Mn | Germany | DIN 17664 |
| 2.0872 | Germany | |
| Cunifer 90/10 | Germany |
Producer/Supplier/Trade names
| Tradename | Supplier |
|---|---|
| CuNi10 | KME Germany AG & Co.KG, Menden |
| CuNi10Fe | Emil Müller GmbH, Reichshof-Hespert |
| CuNi10Fe | MGI GmbH, Olpe |
| CuNi10Fe | BUTTING Group, Knesebeck |
| CuNi10Fe | Manfred J.C. Niemann, Bremen |
| CuNi10Fe1Mn | KME Germany AG & Co.KG, Menden |
| CuNi10Fe1Mn | CSN Carl Schreiber GmbH, Neunkirchen |
| CuNi10Fe1Mn | Wieland-Werke AG, Velbert |
| CuNi10Fe1Mn | KME Germany AG & Co.KG, Osnabrück |
| CuNi10Fe1Mn | MPG Mendener Präzisionsrohr GmbH, Menden |
| CuNi10Fe1Mn | Schreier Metall GmbH, Erkrath |
| CuNi10Fe1Mn | Wieland Prometa GmbH, Düsseldorf |
| CuNi10Fe1Mn | Eugen Geyer GmbH, Königsbach-Stein |
| CuNi10Fe1Mn | Wieland Prometa GmbH, Düsseldorf |
| Eucaro10 | Wieland Prometa GmbH, Düsseldorf |
| L10 | Wieland-Werke AG, Ulm |
| NB 10 | ZOLLERN GmbH & Co. KG, Sigmaringen |
| Cunifer 10-Alloy (CuNi 90/10) | VDM Metals GmbH, Werdohl |
Material Compliance
| REACh | RoHS |
|---|---|
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CuNi10Fe1Mn (CW352H; DIN EN 12163 : 2011-08)
Linear-elastic
| Temperature [°C] | Young's modulus [GPa] | Shear modulus [GPa] |
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Yield strength
| Temperature [°C] | 0.2% Proof strength [MPa] |
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Electrical resistivity
| Temperature [°C] | Specific electrical resistance [µΩm] |
|---|---|
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Specific heat
| Temperature [°C] | Specific heat [kJ/(kg*K)] |
|---|---|
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Density
| Temperature [°C] | Density [g/cm³] |
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Tensile strength
| Temperature [°C] | Tensile strength [MPa] |
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Thermal conductivity
| Temperature [°C] | Thermal conductivity [W/(m*K)] |
|---|---|
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Classification
| WIAM Material | Source description |
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Designation
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CuNi10Fe1Mn (soft annealed (+A))
Linear-elastic
| Temperature [°C] | Young's modulus [GPa] | Shear modulus [GPa] |
|---|---|---|
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Electrical resistivity
| Temperature [°C] | Specific electrical resistance [µΩm] |
|---|---|
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Classification
| Treatment | Source description |
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CuNi10Fe1Mn (cold formed)
Electrical resistivity
| Temperature [°C] | Specific electrical resistance [µΩm] |
|---|---|
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Classification
| Treatment | Source description |
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CuNi10Fe1Mn (R280; rod; 10.000-80.000mm)
Yield strength
| Temperature [°C] | 0.2% Proof strength [MPa] |
|---|---|
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Tensile strength
| Temperature [°C] | Tensile strength [MPa] |
|---|---|
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Classification
| Treatment | Semi-finished product | Dimension [mm] | Source description |
|---|---|---|---|
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CuNi10Fe1Mn (R350; rod; 2.000-20.000mm)
Yield strength
| Temperature [°C] | 0.2% Proof strength [MPa] |
|---|---|
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Tensile strength
| Temperature [°C] | Tensile strength [MPa] |
|---|---|
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Classification
| Treatment | Semi-finished product | Dimension [mm] | Source description |
|---|---|---|---|
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CuNi10Fe1Mn (50 % cold worked)
Linear-elastic
| Temperature [°C] | Young's modulus [GPa] | Shear modulus [GPa] |
|---|---|---|
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Classification
| Treatment | Source description |
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