CuAl10Fe5Ni5-C | CC333G Material Datasheet
Unlock Exclusive Materials Data
Gain access to a wealth of materials data by joining our Materials Portal.
Register for Free or Upgrade for Full AccessMaterial Description
| Material Number | Material Number (single) | Standard | Scope | Standard Status | Country | Predecessor | Successor | VDA 231-106 classification | |
|---|---|---|---|---|---|---|---|---|---|
| CC333G (DIN EN 1982 : 2017-11) | CC333G | DIN EN 1982 : 2017-11 | DIN EN 1982 : 2017-11 replaced by DIN EN 1982 : 2024-12 | Replaced | Germany | CuAl10Fe5Ni5-C | CuAl10Fe5Ni5-C | 3.2 | 1) |
| 1) Remark: Copper-tin-lead alloy castings. |
Chemical Composition
| Al [%] | Bi [%] | Cr [%] | Cu [%] | Fe [%] | Mg [%] | Mn [%] | Ni [%] | Pb [%] | Si [%] | Sn [%] | Zn [%] | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| 1) Source: blur |
Mechanical Properties
| Casting Method | Condition | Delivery Condition EN | Temperature [°C] | Tensile Strength [MPa] | Yield Strength (0.2% offset) [MPa] | Elongation A [%] | Hardness HB | HBW | |
|---|---|---|---|---|---|---|---|---|
| blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| 1) Source: blur | ||||||||
| 2) Source: blur | ||||||||
| 3) Remark: blur | ||||||||
| 4) 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)] | Specific Electrical Resistance [µΩm] | Mean Specific Heat Capacity [kJ/(kg*K)] | Electric Conductivity [MS/m] | |
|---|---|---|---|---|---|---|---|---|---|
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 1) |
| 1) Source: blur |
Creep Rupture Behaviour
| Condition | Temperature [°C] | 0.01% Creep Limit at 10³ h [MPa] | 0.1% Creep Limit at 10^4 h [MPa] | |
|---|---|---|---|---|
| blur | blur | blur | blur | 1)2) |
| blur | blur | blur | blur | 1)2) |
| blur | blur | blur | blur | 1)2) |
| 1) Source: blur | ||||
| 2) Remark: blur |
Cross Reference
| Material Name | Country | Standard | |
|---|---|---|---|
| C95810 | Australia | AS 1565 | 1) |
| ZCuAl9Fe4Ni4Mn2-S | China | GB/T 1176 | 1) |
| G-CuAl10Ni | Germany | Germanischer Lloyd | |
| G-CuAl10Ni | Germany | DIN 1714 | 2) |
| 2.0975.01 | Germany | DIN 1714 | 2) |
| GK-CuAl10Ni | Germany | DIN 1714 | 2) |
| 2.0975.02 | Germany | DIN 1714 | 2) |
| GZ-CuAl10Ni | Germany | DIN 1714 | 2) |
| 2.0975.03 | Germany | DIN 1714 | 2) |
| GC-CuAl10Ni | Germany | DIN 1714 | 2) |
| 2.0975.04 | Germany | DIN 1714 | 2) |
| CuAl10Fe5Ni5-C | Europe | EN 1982 | |
| CuAl10Fe5Ni5 | International | ISO 1338 | 1) |
| CAC703 | Japan | JIS H 5120 | 1) |
| AlBC3 | Japan | JIS H 5114 | 1) |
| BrA9Z4N4Mc1 | Russia | GOST 493 | 1) |
| БpA9Ц4Н4Mц1 | Russia | GOST 493 | 1) |
| BrA10Z4N4L | Russia | GOST 493 | 1) |
| БpA10Ц4Н4Л | Russia | GOST 493 | 1) |
| B148 UNS C95800 | USA | ASTM B148 | 1) |
| B806 UNS C95800 | USA | ASTM B806 | 1) |
| B271 UNS C95800 | USA | ASTM B271 | 1) |
| B505 UNS C95800 | USA | ASTM B505 | 1) |
| C95800 | USA | UNS | 1) |
| B148 UNS C95820 | USA | ASTM B148 | 1) |
| C95820 | USA | UNS | 1) |
| G-NiAlBz F60 | Germany | 1) | |
| 1) Source: Deutsches Kupferinstitut Berufsverband e.V., Düsseldorf | |||
| 2) Source: DIN CEN/TS 13388 (DIN SPEC 9700) |
Producer/Supplier/Trade names
| Tradename | Supplier |
|---|---|
| Bögra T 82 | BÖGRA Technologie GmbH, Solingen |
| GC-CuAl10Ni | Wieland Metal Services Germany GmbH, Düsseldorf |
| G-CuAl10Ni | CUMSAL GmbH, Wilnsdorf |
| DS 142 | Ed. Fitscher GmbH & Co KG, Oberhausen |
| G-CuAl10Ni | Fehrmann Metallverarbeitung GmbH, Hamburg |
| GC-CuAl10Ni | Fehrmann Metallverarbeitung GmbH, Hamburg |
| GK-CuAl10Ni | Krause-Präzisions-Kokillenguss GmbH, Pappenheim |
| CuAl10Fe5Ni5-C | Wieland Recycling GmbH, Ulm |
| GZ-CuAl10Ni | Mittelrheinische Metallgießerei H. Beyer GmbH & Co KG, Andernach |
| GK-CuAl10Ni | Piel + Adey GmbH & Co.KG, Solingen |
| GZ-CuAl10Ni | Schreier Metall GmbH, Erkrath |
| EBG | ZOLLERN GmbH & Co. KG, Sigmaringen |
Material Compliance
| REACh | RoHS |
|---|---|
| blur | blur |