Copper Wire
Copper Wire
We supply round copper wire for electrical applications.
High quality copper wire in diameters from 0.5mm to 10mm. Other dimensions available upon sales query.
Alloys
| Material Designation | Composition in % (m/m) | |||||||||
|---|---|---|---|---|---|---|---|---|---|---|
| Element | Cu | Ag | Bi | O | P | Pb | Other elements (see note) | |||
| Symbolic | Numerical | |||||||||
| Total | excluded | |||||||||
| Cu-ETP | CW004A | min. | 99.90a | – | – | – | – | – | – | Ag, O |
| max. | – | – | 0,0005 | 0.040b | – | 0,005 | 0,03 | |||
| Cu-FRHC | CW005A | min. | 99.90a | – | – | – | – | – | – | Ag, O |
| max. | – | – | – | 0.040b | – | – | 0,06 | |||
| Cu-OF | CW008A | min. | 99.95a | – | – | – | – | – | – | Ag |
| max. | – | – | 0,0005 | –c | – | 0,005 | 0,03 | |||
| CuAg0,04 | CW011A | min. | Rest | 0,03 | – | – | – | – | – | Ag, O |
| max. | – | 0,05 | 0,0005 | 0,040 | – | – | 0,03 | |||
| CuAg0,07 | CW012A | min. | Rest | 0,06 | – | – | – | – | – | Ag, O |
| max. | – | 0,08 | 0,0005 | 0,040 | – | – | 0,03 | |||
| CuAg0,10 | CW013A | min. | Rest | 0,08 | – | – | – | – | – | Ag, O |
| max. | – | 0,12 | 0,0005 | 0,040 | – | – | 0,03 | |||
| CuAg0,04P | CW014A | min. | Rest | 0,03 | – | – | 0,001 | – | – | Ag, P |
| max. | – | 0,05 | 0,0005 | –c | 0,007 | – | 0,03 | |||
| CuAg0,07P | CW015A | min. | Rest | 0,06 | – | – | 0,001 | – | – | Ag, P |
| max. | – | 0,08 | 0,0005 | –c | 0,007 | – | 0,03 | |||
| CuAg0,10P | CW016A | min. | Rest | 0,08 | – | – | 0,001 | – | – | Ag, P |
| max. | – | 0,12 | 0,0005 | –c | 0,007 | – | 0,03 | |||
| CuAg0,04(OF) | CW017A | min. | Rest | 0,03 | – | – | – | – | – | Ag, O |
| max. | – | 0,05 | 0,0005 | –c | – | – | 0,0065 | |||
| CuAg0,07(OF) | CW018A | min. | Rest | 0,06 | – | – | – | – | – | Ag, O |
| max. | – | 0,08 | 0,0005 | –c | – | – | 0,0065 | |||
| CuAg0,10(OF) | CW019A | min. | Rest | 0,08 | – | – | – | – | – | Ag, O |
| max. | – | 0,12 | 0,0005 | –c | – | – | 0,0065 | |||
| Cu-PHC | CW020A | min. | 99.95a | – | – | – | 0,001 | – | – | Ag, P |
| max. | – | – | 0,0005 | –c | 0,006 | 0,005 | 0,03 | |||
| Cu-HCP | CW021A | min. | 99.95a | – | – | – | 0,002 | – | – | Ag, P |
| max. | – | – | 0,0005 | –c | 0,007 | 0,005 | 0,03 | |||
| NOTE – The total of other elements ( different from copper) is defined as the sum of Ag, As, Bi, Cd, Co, Cr, Fe, Mn, Ni, O, P , Pb, S, Sb, Se, Si, Sn, Te and Zn, with the exclusion of any of the elements whose value is indicated individually. | ||||||||||
| a Including silver (Ag), up to a maximum of 0.015% | ||||||||||
| b Up to 0.060% of oxygen content is permitted, subject to an agreement between client and supplier. | ||||||||||
| c Oxygen content must be such that the material complies with the requisites for embrittlement by heating in a hydrogen atmosphere as in Norm En 1976.
|
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| Material Designation | Element | Composition in % (mass fraction) | |||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Symbolic | Numerical | Cu | Ag | As | Bi | Cd | Fe | Mn | Ni | O | P | Pb | S | Sb | Se | Sn | Te | Zn | |
| Cu-OFE | CW009A | min. | 99,99 | – | – | – | – | – | – | – | – | – | – | – | – | – | – | – | – |
| max. | – | 0,002 5 | 0,000 5 | 0,000 20 | 0,000 1 | 0,0001 0 | 0,000 5 | 0,000 1 | _a | 0,000 3 | 0,000 5 | 0,001 5 | 0,000 4 | 0,000 20 | 0,000 2 | 0,000 20 | 0,000 1 | ||
| Cu-PHCE | CW022A | min. | 99,99 | – | – | – | – | – | – | – | – | 0,001 | – | – | – | – | – | – | – |
| max. | – | 0,002 5 | 0,000 5 | 0,000 20 | 0,000 1 | 0,0001 0 | 0,000 5 | 0,000 1 | _a | 0,006 | 0,000 5 | 0,001 5 | 0,000 4 | 0,000 20 | 0,000 2 | 0,000 20 | 0,000 1 | ||
| a The oxygen content must be such that the material fulfills requirements of fragilization by heating in a hydrogen atmophere, of the Norm in 1976. | |||||||||||||||||||
Equivalences
| EN | DIN | ASTM | AFNOR | BS | JIS | SN | ||
|---|---|---|---|---|---|---|---|---|
| Symbolic | Numerical | Symbolic | Numerical | |||||
| Cu-ETP | CW004A | E-Cu58 | 20065 | C11000 | CuA1 | C101 | C1100 | Cu-ETP |
| Cu-OFE | CW009A | – | – | C10100 | CuC2 | C110 | – | Cu-OFE |
| Cu-OF | CW008A | OF-Cu | 2.0040 | C10200 | CuC1 | C103 | C1020 | Cu-OF |
| Cu-HCP | CW021A | Se-Cu | 2.0070 | – | – | – | – | – |
| Cu-PHC | CW020A | Se-Cu | 2.0070 | C10300 | – | – | – | Cu-HCP |
| Cu-PHCE | CW022A | – | – | – | – | – | – | – |
| CuAg0,10 | CW013A | CuAg0,10 | 2.1203 | C10700 | – | – | – | – |
| C10940 | ||||||||
| C11600 | ||||||||
| CuAg0,04P | CW014A | – | – | C11904 | – | – | – | – |
| CuAg0,10P | CW016A | CuAg0,1P | 2.1197 | C11907 | – | – | – | CuAg0,1P |
| Cu-DHP | CW024A | SF-Cu | 2.0090 | C12200 | CuB1 | C106 | C1220 | – |
| C1221 | ||||||||
| Cu-DLP | CW023A | SW-Cu | 2.0076 | C12000 | CuB2 | – | – | Cu-DLP |
| CuTeP | CW118C | CuTeP | 2.1546 | C14500 | CuTe 1336 | C109 | – | CuTeP |
| CuFe2P | CW107C | CuFe2P | 2.1310 | C19400 | – | CW107C | – | – |
| Cu-S | CW114C | CuSP | 2.1498 | C14700 | Cu-S 1336 | C111 | – | Cu-S |
Technical characteristics
| Designations | Measurements in mm | Hardness | Tensile Strength | Yield Limit at 0,2% | Elongation | ||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| round, square, hexagonal | rectangular | ||||||||||||||||||
| Thickness | Width | HB | HV | Rm | Rp0.2 | A100mm | A | ||||||||||||
| Symbolic | Numerical | Metallurgical State | From | Greater than | Up to and including | From | Greater than | Up to and including | From | Greater than | Up to and including | min. | max. | min. | max. | N/mm2 | N/mm2 | % | % |
| min. | min. | min. | |||||||||||||||||
| Cu-ETP Cu-FRHC Cu-OF Cu-OFE CuAg0,04 CuAg0,07 CuAg0,10 CuAg0,04P CuAg0,07P CuAg0,10P CuAg0,04(OF) CuAg0,07(OF) CuAg0,10(OF) Cu-PHC Cu-HCP Cu-PHCE |
CW004A CW005A CW008A CW009A CW011A CW012A CW013A CW014A CW015A CW016A CW017A CW018A CW019A CW020A CW021A CW022A |
D | 2 | – | 160 | 0,5 | – | 40 | 1 | – | 200 | Cold drawn product without specific properties | |||||||
| H035a | 2 | – | 160 | 0,5 | – | 40 | 1 | – | 200 | 35 | 65 | 35 | 65 | – | – | – | – | ||
| H200a | 2 | – | 160 | 1 | – | 40 | 5 | – | 200 | – | – | – | – | 200 | max.120 | 25 | 35 | ||
| H065 | 2 | – | 80 | 0,5 | – | 40 | 1 | – | 200 | 65 | 90 | 70 | 95 | – | – | – | – | ||
| R250 | 2 | – | 10 | 1 | – | 10 | 5 | – | 200 | – | – | – | – | 250 | min. 200 | 8 | 12 | ||
| R250 | – | 10 | 140 | – | – | – | – | 10 | 200 | – | – | – | – | 250 | min. 180 | – | 15 | ||
| R230 | – | 30 | 80 | – | 10 | 40 | – | 10 | 200 | – | – | – | – | 230 | min. 160 | – | 18 | ||
| H085 | 2 | – | 40 | 0,5 | – | 20 | 1 | – | 120 | 85 | 110 | 90 | 115 | – | – | – | – | ||
| H075 | – | 40 | 80 | – | 20 | 40 | – | 20 | 160 | 75 | 100 | 80 | 105 | – | – | – | – | ||
| R300 | 2 | – | 20 | 1 | – | 10 | 5 | – | 120 | – | – | – | – | 300 | min. 260 | 5 | 8 | ||
| R280 | – | 20 | 60 | – | 10 | 20 | – | 10 | 120 | – | – | – | – | 280 | min. 240 | – | 10 | ||
| R260 | – | 40 | 60 | – | 20 | 40 | – | 20 | 160 | – | – | – | – | 260 | min. 220 | – | 12 | ||
| H100 | 2 | – | 10 | 0,5 | – | 5 | 1 | – | 120 | 100 | – | 110 | – | – | – | – | – | ||
| R350 | 2 | – | 10 | 1 | – | 5 | 5 | – | 120 | – | – | – | – | 350 | min. 320 | 3 | 5 | ||
| NOTE – 1 N/mm2 is equivalent to 1 MPa | |||||||||||||||||||
| a Annealed. | |||||||||||||||||||
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