CuAl10Fe5Ni5-C | CC333G Material Datasheet
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| Material Number | Material Number (single) | Standard | Range of Application | Standard Status | Country | Predecessor | Successor | |
|---|---|---|---|---|---|---|---|---|
| CC333G (DIN EN 1982 : 2008-08) | CC333G | DIN EN 1982 : 2008-08 | DIN EN 1982 : 2008-08 replaced by DIN EN 1982 : 2017-11 | Replaced | Germany | CuAl10Fe5Ni5-C | CuAl10Fe5Ni5-C | 1) |
| 1) Remark: CuAl10Fe5Ni5-C, mat. No. CC333G (former G-CuAl10Ni, mat. No. 2.0975 acc. to DIN 1714) is a construction material with improved strength properties, high temperature strength and favorable scaling resistance. This alloy is excellent corrosion resistant in cold and hot seawater, in industrial sewages, acids, salts and brines, except for ammonia. It is well castable and shows favorable abrasion resistance and fatigue strength. Its high-temperature strength values are only slightly falling up to 200°C, up to -200°C increasing cold strength values. Processing properties: castability: good machinability: conditionally soft soldering: unfavorable hard soldering: conditionally gas fusion welding: unfavorable arc welding: conditionally gas-shielded welding: very good burnishing (mech.): good (Material specification applies for G-CuAl10Ni acc. to DIN) Application: CuAl10Fe5Ni5-C is used for highly strength and corrosion-strained parts, such as cotters, sealing jaws, electrode fastener etc. Highly loaded worm and gear wheels as well as for helical and bevel gears which are favorable die castable due to its dimension are favorably producable of this special bronze. Further application for hot steam instruments, distributor heads and reversing bottoms in apparatus engineering as well as in petrochemical industry and for ship propellers, stem tubes, blade wheels, pump casings. |
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)2) |
| 1) Source: blur | ||||||||||||
| 2) Remark: blur |
Mechanical Properties
| Casting Method | Condition | Delivery Condition EN | Temperature [°C] | Tensile Strength [MPa] | Yield Strength (0.2% offset) [MPa] | Elongation A [%] | Shear Strength [MPa] | Hardness HB | HBW | |
|---|---|---|---|---|---|---|---|---|---|
| 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 | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 2)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | 3)4) |
| blur | 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 | |
|---|---|---|---|
| CuAl10Fe4Ni4 (423147) | Czech Republik/Slovakia | CSN 423147 | |
| CuAl10Fe5Ni5 | France | NF A53-709-87 | |
| CuAl10Fe5Ni5 (AB2) | Great Britain | BS 1400-85 | |
| BrA9C4N4Mc1 | Russia | GOST 493-79 | |
| CuAl10Fe5Ni5 | International | ISO 1338-77 | |
| AlBC3 | Japan | JIS H 5114-79 | |
| öCuAl10Fe4Ni4 | Hungary | MSZ 8579-84 | |
| B148 UNS C95500 | USA | ASTM B148 | |
| B271 UNS C95500 | USA | ASTM B271 | |
| B30 UNS C95500 | USA | ASTM B30 | |
| B505 UNS C95500 | USA | ASTM B505 | |
| B763 UNS C95500 | USA | ASTM B763 | |
| B806 UNS C95500 | USA | ASTM B806 | |
| C95500 | USA | FED QQ-C-390 | |
| C95500 | USA | FED WW-V-1967 | |
| C95500 | USA | SAE J461 | |
| C95500 | USA | SAE J462 | |
| B30 UNS C95800 | USA | ASTM B30 | |
| B148 UNS C95800 | USA | ASTM B148 | |
| B806 UNS C95800 | USA | ASTM B806 | |
| B271 UNS C95800 | USA | ASTM B271 | |
| B505 UNS C95800 | USA | ASTM B505 | |
| B30 UNS C95520 | USA | ASTM B30 | |
| B148 UNS C95520 | USA | ASTM B148 | |
| B271 UNS C95520 | USA | ASTM B271 | |
| B505 UNS C95520 | USA | ASTM B505 | |
| B148 UNS C95820 | USA | ASTM B148 | |
| B271 UNS C95820 | USA | ASTM B271 | |
| B30 UNS C95820 | USA | ASTM B30 | |
| B505 UNS C95820 | USA | ASTM B505 | |
| B763 UNS C95820 | USA | ASTM B763 | |
| B806 UNS C95820 | USA | ASTM B806 | |
| CuAl10Fe4Ni4 | Poland | PN / H-87026 | |
| CuAl10Fe5Ni5 | Switzerland | VSM 10810-3 | |
| CuAl10Fe5Ni5 (C-4220) | Spain | UNE 37-103-2 | |
| G-CuAl10Fe5Ni5 | Finland | SFS 2212 | |
| CuAl10Fe5Ni5 | Norway | NS 16570 | |
| F-Cu-Al 10 Fe 5 Ni 5 | Portugal | NP 1214 | |
| CuAl10Fe5Ni5 (5716) | Sweden | SIS 145716 | |
| CuAl10Fe5Ni5 (5716) | Denmark | DS 3001 | |
| CuAl11Fe4Ni4 | Italy | UNI 5275 | |
| ZCuAl9Fe4Ni4Mn2-S | China | GB 1176 | |
| C95810 | Australia | AS 1565 | |
| G-CuAl10Ni | Germany | Germanischer Lloyd | |
| G-CuAl10Ni | Germany | DIN 1714 | 1) |
| 2.0975.01 | Germany | DIN 1714 | 1) |
| GK-CuAl10Ni | Germany | DIN 1714 | 1) |
| 2.0975.02 | Germany | DIN 1714 | 1) |
| GZ-CuAl10Ni | Germany | DIN 1714 | 1) |
| 2.0975.03 | Germany | DIN 1714 | 1) |
| GC-CuAl10Ni | Germany | DIN 1714 | 1) |
| 2.0975.04 | Germany | DIN 1714 | 1) |
| 1) Source: DIN CEN/TS 13388 (DIN SPEC 9700) |
Producer/Supplier/Trade names
| Tradename | Supplier |
|---|---|
| DS 142 | Ed. Fitscher GmbH & Co KG, Oberhausen |
| GZ-CuAl10Ni | Mittelrheinische Metallgießerei H. Beyer GmbH & Co KG, Andernach |
| Bögra T 82 | BÖGRA Technologie GmbH, Solingen |
| EBG | ZOLLERN GmbH & Co. KG, Sigmaringen |
| G-CuAl10Ni | CUMSAL GmbH, Wilnsdorf |
| G-CuAl10Ni | Fehrmann Metallverarbeitung GmbH, Hamburg |
| GC-CuAl10Ni | Fehrmann Metallverarbeitung GmbH, Hamburg |
| GC-CuAl10Ni | Wieland Prometa GmbH, Düsseldorf |
| GK-CuAl10Ni | Piel + Adey GmbH & Co.KG, Solingen |
| GK-CuAl10Ni | Krause-Präzisions-Kokillenguss GmbH, Pappenheim |
| GZ-CuAl10Ni | Schreier Metall GmbH, Erkrath |
Material Compliance
| REACh | RoHS |
|---|---|
| blur | blur |