C19150/60 Leaded Precipitation-Hardenable Copper Alloy Wire
Download PDFAlloy C19150 and C19160 are high copper alloys with small additions of nickel, phosphorus and lead. The alloys provide a good combination of tensile strength, electrical conductivity, fair machinability and excellent formability.
Mechanical Properties
Round Wire
TEMPER NAME | TEMPER CODE | TENSILE STRENGTH (N/mm²) | MILL LIMITS | |
MIN | MAX | |||
AT | TF00 | 276 | 448 | .0254 - 3.264 mm |
1/4 HT | TL01 | 469 | 541 | |
1/2 HT | TL02 | 483 | 593 | |
3/4 HT | TL04 | 517 | 655 | |
HT | TL08 | 676 | 738 |
Square Wire
TEMPER NAME | TEMPER CODE | TENSILE STRENGTH (N/mm²) | MILL LIMITS | |
MIN | MAX | |||
AT | TF00 | 276 | 448 | .2540 - 1.905 mm |
1/4 HT | TL01 | 469 | 541 | |
1/2 HT | TL02 | 483 | 593 | |
3/4 HT | TL04 | 517 | 655 | |
HT | TL08 | 676 | 738 |
Physical Properties
Melting Point (Liquidis) | 1082°C |
Melting Point (Solidus) | 1038°C |
Minimum Solutionizing Temperature | 704°C |
Density | 8.85768 gm/cu cm |
Electrical Conductivity (Age Hardedned) | 0.32198 MegaSiemens /cm @ 20°C |
Coefficient of Thermal Expansion | 0.00001764°C (20-300°C) |
Modulus of Elasticity (Tension) | 124100 MPa |
Modulus of Rigidity | 41400 MPa |
For a full size version of product specifications, including chemical composition in both US and Metric units, please download the PDF.