CuNi10Fe1Mn | 2.0872 Material Datasheet
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| Material Number | Material Name | Material Number (single) | Standard | Standard Status | Country | VDA 231-106 classification | |
|---|---|---|---|---|---|---|---|
| 2.0872 (DIN 17664 : 1983-12) | CuNi10Fe1Mn | 2.0872 | DIN 17664 : 1983-12 | Withdrawn without replacement | Germany | 3.2 | 1) |
| 1) Remark: CuNi10Fe1Mn (old: CuNi10Fe) - good strength values, in case of continuous stress and higher temperatues, too - obtainable strength is F28 - nickel reduces thermal conductivity of pure copper and increases strongly the electrical conductivity - additives of iron boost the corrosion resistance - resistant in seawater, alkaline saline solution and not oxidising acids - CuNi44Mn1 is used as resistor alloy CuNi44 according to DIN 17471 - obtainabel strength: 600 N/mm² - upper application temperature on air: 600°C Manufacturing properties: - hot forming: good - cold forming: very good - grindability: bad - brazing: very good - soldering: very good - inert gas welding: very good - burnishing: good Application: - for seawater pipe lines, tubes and plates for tube-heat exchanger (condensor, cooler, seawater vaporiser, high pressure feed water heater) on boats, in plants, in desalting plants, in chemical plants, in sugar plants |
Chemical Composition
| C [%] | Fe [%] | Mn [%] | Ni [%] | Pb [%] | S [%] | Zn [%] | Remainder | |
|---|---|---|---|---|---|---|---|---|
| blur | blur | blur | blur | blur | blur | blur | blur | 1)2) |
| 1) Source: blur | ||||||||
| 2) Remark: blur |
Material Compliance
| REACh | RoHS |
|---|---|
| blur | blur |
Mechanical Properties
| Semi-finished Product | Condition | Condition Number | Strength Abbrevation | Nominal Size [mm] | Temperature [°C] | Tensile Strength [MPa] | Yield Strength (0.2% offset) [MPa] | Elongation A10 [%] | Elongation A [%] | Hardness HB | HBW | Hardness HV | Grain Size [mm] | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 2)4) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 3)5) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 3)5) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)5) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)5) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)5) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)5) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 6)7) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 8)9) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 8)9) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 8)9) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 8)9) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 8)9) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 8)9) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 8)9) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 8)9) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 8)9) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 10)11) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 12) |
| 1) Source: blur | |||||||||||||
| 2) Source: blur | |||||||||||||
| 3) Remark: blur | |||||||||||||
| 4) Remark: blur | |||||||||||||
| 5) Source: blur | |||||||||||||
| 6) Source: blur | |||||||||||||
| 7) Remark: blur | |||||||||||||
| 8) Source: blur | |||||||||||||
| 9) Remark: blur | |||||||||||||
| 10) Source: blur | |||||||||||||
| 11) Remark: blur | |||||||||||||
| 12) Source: blur |
Physical Properties
| Temperature [°C] | Melting Temperature [°C] | Density [g/cm³] | Young's Modulus [GPa] | Mean Coefficient of Thermal Expansion (reference 20°C) [10^-6*K^-1] | Thermal Conductivity [W/(m*K)] | |
|---|---|---|---|---|---|---|
| blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | 1) |
| 1) Source: blur |
Creep Rupture Behaviour
| 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] | |
|---|---|---|---|---|---|---|
| blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | 1) |
| 1) Source: blur |
Cross Reference
| Material Name | Country | Standard |
|---|---|---|
| CuNi10Fe1Mn | Bulgaria | BDS 13709-76 |
| MNZhMc10-1-1 | Russia | GOST 492-73 |
| CuNi10Fe1Mn | International | ISO 429-83 |
| MNZ101 | Poland | PN-78/H-87052 |
| CuNi10Fe1Mn | Hungary | MSZ 771/1-77 |
| CuNi10Fe1Mn (CW352H) | Germany | DIN EN 12163 |
| CuNi10Fe1Mn (CW352H) | Germany | DIN EN 12165 |
| CuNi10Fe1Mn (CW352H) | Germany | DIN EN 12420 |
| CuNi10Fe1Mn (CW352H) | Germany | DIN EN 1653 |
| CuNi10Fe1Mn (CW352H) | Germany | DIN EN 12449 |
| CuNi10Fe1Mn (CW352H) | Germany | DIN EN 1652 |
Producer/Supplier/Trade names
| Tradename | Supplier |
|---|---|
| CuNi10 | HME Copper Germany GmbH, Menden |
| CuNi10Fe | Emil Müller GmbH, Reichshof-Hespert |
| CuNi10Fe | MGI GmbH, Olpe |
| CuNi10Fe | BUTTING Group, Knesebeck |
| CuNi10Fe | Manfred J.C. Niemann, Bremen |
| CuNi10Fe1Mn | HME Copper Germany GmbH, Menden |
| CuNi10Fe1Mn | CSN Carl Schreiber GmbH, Neunkirchen |
| CuNi10Fe1Mn | Wieland-Werke AG, Velbert |
| CuNi10Fe1Mn | KME Germany GmbH, Osnabrück |
| CuNi10Fe1Mn | MPG Mendener Präzisionsrohr GmbH, Menden |
| CuNi10Fe1Mn | Schreier Metall GmbH, Erkrath |
| CuNi10Fe1Mn | Wieland Metal Services Germany GmbH, Düsseldorf |
| CuNi10Fe1Mn | Eugen Geyer GmbH, Königsbach-Stein |
| L10 | Wieland-Werke AG, Ulm |
| NB 10 | ZOLLERN GmbH & Co. KG, Sigmaringen |