CuSn7Pb15-C | CC496K Material Datasheet
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| Material Number | Material Number (single) | Standard | Range of Application | Standard Status | Country | Predecessor | Successor | Remark |
|---|---|---|---|---|---|---|---|---|
| CC496K (DIN EN 1982 : 2008-08) | CC496K | DIN EN 1982 : 2008-08 | DIN EN 1982 : 2008-08 replaced by DIN EN 1982 : 2017-11 | Replaced | Germany | CuSn7Pb15-C | CuSn7Pb15-C | The material G-CuPb15Sn (former identification: G-SnPbBz15) is a bearing material of favorable sliding and flat-running properties at temporary absence of lubricant and at water lubrication. The material is suitable as composite cast material, it is resistant to sulfuric acid. It is applicated for edge loading floating bearings of high surface pressure, for bearings without anti friction metal lining, also with cast-in copper cooling pipes for cold rolling mills. For top level loadings on good lubrication up to =5000 N/cm². For composite bearings in combustion engines, preferred piston pin bushings with a max. loading up to 7000 N/cm² and for acid resistant instruments and castings. Processing properties: machinability: very good soft soldering: good hard soldering: unfavorable gas fusion welding: unfavorable burnishing (mech.): good galvanizing: good suitability for dip tinning: good |
Chemical Composition
| Al [%] | Cu [%] | Fe [%] | Mn [%] | Ni [%] | P [%] | Pb [%] | S [%] | Sb [%] | Si [%] | Sn [%] | Zn [%] | Source | Remark |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
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Mechanical Properties
| Casting Method | Condition | Delivery Condition EN | Temperature [°C] | Tensile Strength [MPa] | Yield Strength (0.2% offset) [MPa] | 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] | Mean Coefficient of Thermal Expansion [10^-6*K^-1] | Mean Coefficient of Thermal Expansion (reference 20°C) [10^-6*K^-1] | Thermal Conductivity [W/(m*K)] | Linear Shrinkage [%] | Electric Conductivity [MS/m] | Specific Electric Conductivity [% IACS] | Source | Remark |
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Young's Modulus [GPa] vs Temperature [°C]
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Unlock NowCross Reference
| Material Name | Country | Standard | Source |
|---|---|---|---|
| G-CuPb15Sn | Germany | DIN 1716 | DIN CEN/TS 13388 (DIN SPEC 9700) |
| 2.1182.01 | Germany | DIN 1716 | DIN CEN/TS 13388 (DIN SPEC 9700) |
| GZ-CuPb15Sn | Germany | DIN 1716 | DIN CEN/TS 13388 (DIN SPEC 9700) |
| 2.1182.03 | Germany | DIN 1716 | DIN CEN/TS 13388 (DIN SPEC 9700) |
| GC-CuPb15Sn | Germany | DIN 1716 | DIN CEN/TS 13388 (DIN SPEC 9700) |
| 2.1182.04 | Germany | DIN 1716 | DIN CEN/TS 13388 (DIN SPEC 9700) |
| G-CuPb15Sn8 | Finland | SFS 2216 | |
| CuPb15Sn9 (LB1) | Great Britain | BS 1400 | |
| CuPb15Sn8 | International | ISO 1338-77 | |
| Gs-CuSn8Pb15 | Italy | UNI 7013-4 | |
| LBC 4 (Class 4) | Japan | JIS H 5115 | |
| CuSn8Pb15Ni | Poland | PN / H-87026 | |
| F-Cu-Pb15Sn8 | Portugal | NP 1587 | |
| G-CuPb15Sn8 | Switzerland | VSM 10810-4 | |
| CuSn8Pb15 (C-3300) | Spain | UNE 37-103-2 | |
| B271 UNS C93800 | USA | ASTM B271 | |
| B30 UNS C93800 | USA | ASTM B30 | |
| B505 UNS C93800 | USA | ASTM B505 | |
| B584 UNS C93800 | USA | ASTM B584 | |
| B66 UNS C93800 | USA | ASTM B66 | |
| B763 UNS C93800 | USA | ASTM B763 | |
| C93800 | USA | FED QQ-C-390 | |
| C93800 | USA | SAE J461 | |
| C93800 | USA | SAE J462 | |
| öCuPb15Sn8 | Hungary | MSZ 8579-84 |
Producer/Supplier/Trade names
| Tradename | Supplier |
|---|---|
| DSt 157 | Dillenberg GmbH & Co, Düsseldorf |
| GC-CuPb15Sn | Mittelrheinische Metallgießerei H. Beyer GmbH & Co KG, Andernach |
| GC-CuPb15Sn | Schreier Metall GmbH, Erkrath |
| GC-CuPb15Sn | Ed. Fitscher GmbH & Co KG, Oberhausen |
| GC-CuPb15Sn | Wieland Prometa GmbH, Düsseldorf |
| Bögra PS 138 | BÖGRA Technologie GmbH, Solingen |
| G-CuPb15Sn | CUMSAL GmbH, Wilnsdorf |
| GC-CuPb15Sn | Wieland-Werke AG, Ulm |
| Z 13 | ZOLLERN GmbH & Co. KG, Sigmaringen |
Material Compliance
| REACh | RoHS |
|---|---|
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