E-Cu58 | 2.0065 Material Datasheet
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| Material Number | Material Name | Material Number (single) | Standard | Standard Status | Country | VDA 231-106 classification | |
|---|---|---|---|---|---|---|---|
| 2.0065 (DIN 1787 : 1973-01) | E-Cu58 | 2.0065 | DIN 1787 : 1973-01 | Withdrawn without replacement | Germany | 3.2 | 1) |
| 1) Remark: E-Cu58 is oxygen containing copper with more than 99,9 % Cu. It exhibits an especially high thermal and electrical conductivity. The tensile strength and BRINELL hardness can be increased by cold forming. The strength grade for sheet metals and strip are in range of F20. E-Cu58 shows no embrittlement at low temperatures, has a good corrosion resistance , in particular to drinking and industrial water. The material is not hydrogen steady. Manufacturing properties: warm forming: very well cold forming: very well machinability: badly braze welding: well soft soldering: very well gas-schielded arc welding: means polishingability: very well Application: Because of the very high conductivity the material particularly finds in that electro-technology and in electronics application. Furthermore E-Cu58 is used in food and beverage industry, in cooling and air condition technology in machine construction, ship, apparatus and automobile engineering, in the household as well as, in arts and crafts and in the building industry. |
Chemical Composition
| Cu [%] | O [%] | |
|---|---|---|
| blur | blur | 1) |
| 1) Source: 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 A100 [%] | Elongation A200 [%] | Elongation A [%] | Hardness HB | HBW | Hardness HV | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 1)2) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 1)2) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 1)3) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 1)3) |
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| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 2)4) |
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| blur | 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 | blur | 4)5) |
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| blur | 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 | blur | 4)5) |
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| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 2)4) |
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| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)8) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)9) |
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| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)9) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)10) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)10) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)10) |
| blur | 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 | blur | 4)5) |
| blur | 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 | blur | 4)5) |
| blur | 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 | blur | 2)4) |
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| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)6) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)6) |
| blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | blur | 4)7) |
| 1) Source: blur | ||||||||||||||
| 2) Remark: blur | ||||||||||||||
| 3) Remark: blur | ||||||||||||||
| 4) Source: blur | ||||||||||||||
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| 10) Remark: blur |
Physical Properties
| Temperature [°C] | Melting Temperature [°C] | Density [g/cm³] | Thermal Conductivity [W/(m*K)] | Specific Electrical Resistance [µΩm] | Electric Conductivity [MS/m] | |
|---|---|---|---|---|---|---|
| blur | blur | blur | blur | blur | blur | 1) |
| blur | blur | blur | blur | blur | blur | 2) |
| blur | blur | blur | blur | blur | blur | 2) |
| 1) Source: blur | ||||||
| 2) Source: blur |
Cross Reference
| Material Name | Country | Standard |
|---|---|---|
| Cu-ETP | International | ISO 431-81 |
| C11000 | USA | ASTM B 11 |
| C11000 | USA | ASTM B 12 |
| C11000 | USA | ASTM B 124 |
| C11000 | USA | ASTM B 152 |
| Cu-ETP (CW004A) | Germany | DIN EN 12165 |
| Cu-ETP (CW004A) | Germany | DIN EN 12420 |
| Cu-ETP (CW004A) | Germany | DIN EN 13599 |
| Cu-FRHC (CW005A) | Germany | DIN EN 13599 |
| Cu-ETP (CW004A) | Germany | DIN EN 13600 |
| Cu-FRHC (CW005A) | Germany | DIN EN 13600 |
| Cu-ETP (CW004A) | Germany | DIN EN 13601 |
| Cu-ETP (CW004A) | Germany | DIN EN 1977 |
| Cu-FRHC (CW005A) | Germany | DIN EN 1977 |
| Cu-FRHC (CW005A) | Germany | DIN EN 13602 |
| Cu-ETP (CW004A) | Germany | DIN EN 1652 |
Producer/Supplier/Trade names
| Tradename | Supplier |
|---|---|
| 211 | William Prym Holding GmbH, Stolberg |
| 3010 | VDM Metals GmbH, Frankfurt/Main |
| E-Cu | F. Hackländer GmbH, Kassel |
| E-Cu | Heraeus Deutschland GmbH & Co. KG, Hanau |
| E-Cu58 | CSN Carl Schreiber GmbH, Neunkirchen |
| E-Cu58 | Wieland-Werke AG, Velbert |
| E-Cu58 | KME Germany GmbH, Osnabrück |
| E-Cu58 | Deutsche Giessdraht GmbH, Emmerich |
| E-Cu58 | LEONI Draht GmbH, Weißenburg |
| E-Kupfer | VDM Metals GmbH, Frankfurt/Main |