cast size (mm) |
Cu-ETP (CW004A) |
CuCr1Zr (CW106C) |
approx kg/m |
10 x 4 | ✚ | 0,4 | |
10 x 10 | ✔ | 0,9 | |
15 x 8 | ✚ | 1,1 | |
15 x 15 | ✔ | 2,0 | |
20 x 5 | ✔ | 0,9 | |
20 x 8 | ✚ | 1,4 | |
20 x 10 | ✔ | 1,9 | |
20 x 12 | ✔ | 2,1 | |
20 x 20 | ✔ | ✔ | 3,6 |
25 x 5 | ✔ | 1,1 | |
cast size (mm) |
Cu-ETP (CW004A) |
CuCr1Zr (CW106C) |
approx kg/m |
25 x 25 | ✔ | ✔ | 5,7 |
30 x 3 | ✚ | 0,8 | |
30 x 5 | ✔ | 1,3 | |
30 x 6 | ✚ | 1,6 | |
30 x 8 | ✔ | 2,1 | |
30 x 10 | ✔ | ✔ | 2,7 |
30 x 15 | ✔ | 4,0 | |
30 x 20 | ✔ | ✔ | 5,4 |
30 x 30 | ✔ | ✔ | 8,0 |
cast size (mm) |
Cu-ETP (CW004A) |
CuCr1Zr (CW106C) |
approx kg/m |
35 x 10 | ✚ | 3,1 | |
40 x 5 | ✔ | 1,8 | |
40 x 6 | ✔ | 2,1 | |
40 x 8 | ✔ | 2,9 | |
40 x 10 | ✔ | 3,6 | |
40 x 12 | ✔ | 4,3 | |
40 x 15 | ✔ | 5,4 | |
40 x 20 | ✔ | ✔ | 7,1 |
40 x 25 | ✔ | ✔ | 8,9 |
cast size (mm) |
Cu-ETP (CW004A) |
CuCr1Zr (CW106C) |
approx kg/m |
40 x 30 | ✚ | 11,6 | |
40 x 40 | ✔ | ✔ | 14,2 |
50 x 5 | ✔ | 2,2 | |
50 x 8 | ✔ | 3,6 | |
50 x 10 | ✔ | 4,5 | |
50 x 12 | ✔ | 5,4 | |
50 x 15 | ✔ | 6,7 | |
50 x 20 | ✔ | ✚ | 8,9 |
50 x 30 | ✔ | ✔ | 13,4 |
cast size (mm) |
Cu-ETP (CW004A) |
CuCr1Zr (CW106C) |
approx kg/m |
50 x 40 | ✔ | 18,0 | |
50 x 50 | ✔ | ✔ | 22,2 |
60 x 8 | ✔ | 4,3 | |
60 x 10 | ✔ | ✚ | 5,3 |
60 x 15 | ✔ | 8,0 | |
60 x 20 | ✔ | ✔ | 10,7 |
60 x 30 | ✔ | 16,0 | |
60 x 40 | ✚ | ✔ | 21,4 |
60 x 50 | ✔ | 26,8 | |
cast size (mm) |
Cu-ETP (CW004A) |
CuCr1Zr (CW106C) |
approx kg/m |
60 x 60 | ✔ | ✔ | 32,0 |
70 x 10 | ✔ | 6,2 | |
70 x 70 | ✚ | ✔ | 43,6 |
75 x 75 | ✚ | 50,1 | |
80 x 6 | ✚ | 5,7 | |
80 x 10 | ✔ | 7,1 | |
80 x 15 | ✔ | ✔ | 10,8 |
80 x 20 | ✔ | 14,2 | |
80 x 30 | ✔ | ✔ | 21,4 |
cast size (mm) |
Cu-ETP (CW004A) |
CuCr1Zr (CW106C) |
approx kg/m |
80 x 40 | ✚ | ✔ | 28,5 |
80 x 80 | ✔ | ✔ | 57,0 |
90 x 90 | ✔ | 72,1 | |
100 x 5 | ✚ | 4,5 | |
100 x 10 | ✔ | 9,0 | |
100 x 20 | ✔ | ✔ | 17,8 |
100 x 40 | ✔ | 36,9 | |
100 x 100 | ✔ | ✔ | 89,0 |
120 x 20 | ✚ | 21,4 | |
cast size (mm) |
Cu-ETP (CW004A) |
CuCr1Zr (CW106C) |
approx kg/m |
120 x 40 | ✔ | 42,7 | |
✔ standard | ✚ non standard, stock availble
2024-10-11 16:50
|
EN | DIN | |
Alloy | Cu-ETP | E-Cu57 |
roodkoper | ||
Standard | EN 13601, EN 12165 | DIN 1787 |
Alloy number | CW004A | 2.0060 |
Chemical composition | ||
Cu | ≥ 99,90 | ≥ 99,90 |
Oxygen | 0,040 max. | 0,040 max. |
kg/dm³ | ca. 8,9 | |
Characteristics | Oxidized copper with an electrical conductivity of at least 58 m/ohm.mm2 |
EN | DIN | ||
Alloy | CuCr1Zr | CuCrZr | |
Standard | EN 12163, 12167 | DIN 17666, 17672 | |
Alloy number | CW106C | 2.1293 | |
Chemical composition | |||
Cu | rest | rest | |
Cr | 0,5 - 1,2 | 0,3 - 1,2 | |
Zr | 0,03 - 0,3 | 0,03 - 0,3 | |
kg/dm³ | ca. 8,9 | ||
Characteristics | CuCr1Zr has extremely high electrical and thermal conductivity and is resistant to high temperatures. CuCr1Zr is for instance used for resistance welding and electrical equipment components. The termal conductivity at 20 °C is 167 till 320 W/m K abd the electrical conductivity at 20 °C from 26 till m/ohm.mm2. CuCr1Zr has a good wear resistance. |
EN | EN | DIN | |
Alloy | Cu-PHC | Cu-HCP | SE-Cu |
Standard | EN 13601 | EN 13601, EN 12165 | DIN 1787 |
Alloy number | CW020A | CW021A | 2.0070 |
Chemical composition | |||
Cu | ≥ 99,95 | ≥ 99,95 | ≥ 99,90 |
P | 0,002 - 0,007 | 0,002 - 0,007 | = 0.003 |
kg/dm³ | ca. 8,9 | ||
Characteristics | Oxygen-free copper, deoxidized with phosphorus with a high electrical conductivity. Contains a low residual of phosphorus. Mainly used in the electro- technical industries. |
EN | DIN | |
Alloy | Cu-DHP | SF-Cu |
Standard | EN 12165 | DIN 1787 |
Alloy number | CW024A | 2.0090 |
Chemical composition | ||
Cu | ≥ 99,90 | ≥ 99,90 |
P | 0,015 - 0,040 | 0,015 - 0,040 |
kg/dm³ | ca. 8,9 | |
Characteristics | Oxygen-free copper, deoxidized witih phosphorus. Contains a low residual of phosphorus. Mainly used in construction industry and machine building |
EN | DIN | ||
Alloy | CuNi2Si | CuNi2Si | |
Standard | EN 12163, 12165 | DIN 17666, 17672 | |
Alloy number | CW111C | 2.0855 | |
Chemical composition | |||
Cu | rest | rest | |
Ni | 1,6 - 2,5 | 1,6 - 2,5 | |
Si | 0,4 - 0,8 | 0,5 - 0,8 | |
Mn | 0,8 max. | rest | |
kg/dm³ | ca. 8,8 | ||
Characteristics | CuNi2Si offers a high electrical conductivity and tensile strength. CuNi2Si is for instance used as core and ejector pins in the mould industry. The termal conductivity at 20 °C is 67 till 120 W/m.K and the electrical conductivity at 20 °C from 10 till 23 m/ohm.mm2. |
EN | DIN | |
Alloy | CuCo2Be | CuCo2Be |
Standard | EN 12163, 12165 | DIN 17666, 17672 |
Alloy number | CW104C | 2.1285 |
Chemical composition | ||
Cu | rest | rest |
Co | 2,0 - 2,8 | 2,0 - 2,8 |
Be | 0,4 - 0,7 | 0,4 - 0,7 |
Ni | 0,3 max. | *1) |
Fe | 0,2 max | *1) |
kg/dm³ | ca. 8,8 | |
Characteristics | CuCo2Be offers a high electrical conductivity and tensile strength and is resistant to high temperatures. CuCo2Be is for instance used for resistance welding. The thermal conductivity at 20 °C is 192 till 239 W/m.K. and the electrical conductivity at 20 °C from 25 till 32 m/ohm.mm2. |
EN | DIN | |
Alloy | CuBe2 | CuBe2 |
Standard | EN 12163, 12165 | DIN 17666, 17672 |
Alloy number | CW101C | 2.1247 |
Chemical composition | ||
Cu | rest | rest |
Be | 1,8 - 2,1 | 1,8 - 2,1 |
Ni | 0,3 max. | *1) |
Co | 0,3 max. | *1) |
Fe | 0,2 max | *1) |
kg/dm³ | ca. 8,3 | |
Characteristics | In heat treated condition this alloy contains extremely high mechanical values: hardness and tensile strength. This material is resistant to low temperatures from -200 °C as well as high temperatures till approx. 350 °C. CuBe2 is for instance used for non-sparking and non-magnetic applications and wear resistant parts. The termal conductivity at 20 °C is 92 till 125 W/m.K and the electrical conductivity at 20 °C from 8 till 18 m/ohm .mm2. |