JLC Alloy 30, JLC Alloy 15, JLC Alloy 12, JLC Alloy 10 and JLC Alloy 5
These alloys are characterized by low electrical resistivity and low temperature coefficient of resistance. They provide good resistance against oxidation and chemical corrosion. They are easily soldered. Typical applications of these alloys are for electrical resistors and general resistance wire for heating wires, cables, and mats. They are also used as resistance elements of heaters for electrical circuit breakers/fuses in heating cables with low temperatures. In ribbon form, they are used for heating bimetals.
Alloy | Werkstoff Nr | DIN | Ni | Cu |
---|---|---|---|---|
JLC Alloy 30 | 2.0881 | - | 23 | Balance |
JLC Alloy 15 | 2.0811 | 17471 | 11 | Balance |
JLC Alloy 12 | - | - | 8 | Balance |
JLC Alloy 10 | 2.0807 | 17471 | 6 | Balance |
JLC Alloy 5 | 2.0802 | 17471 | 2 | Balance |
Alloy | Density | Specific Resistance (Electrical Resistivity) |
Thermal Linear Expansion Coeff. b/w 20 - 100°C |
Temp. Coeff. of Resistance b/w 20 - 100°C |
Maximum Operating Temp. of Element |
---|---|---|---|---|---|
g/cm³ | µΩ-cm | 10-6/°C | ppm/°C | °C | |
JLC Alloy 30 | 8.90 | 30 | 15.7 | 180 | 400 |
JLC Alloy 15 | 8.90 | 15 | 16.0 | 350-450 | 400 |
JLC Alloy 12 | 8.90 | 12 | 16.2 | 480 | 300 |
JLC Alloy 10 | 8.90 | 10 | 16.2 | 500-900 | 300 |
JLC Alloy 5 | 8.90 | 5 | 16.4 | 1000-1600 | 300 |
Alloy | Tensile strength N/mm² |
Elongation % at L0=100 mm |
||
---|---|---|---|---|
Min | Max | Min | Max | |
JLC Alloy 30 | 340 | 690 | 15 | 35 |
JLC Alloy 15 | 250 | 540 | 15 | 35 |
JLC Alloy 12 | 250 | 540 | 15 | 35 |
JLC Alloy 10 | 230 | 680 | 15 | 35 |
JLC Alloy 5 | 220 | 440 | 15 | 35 |
Form | Dia | Width | Thickness |
---|---|---|---|
mm | mm | mm | |
Wire | 12 - 0.15 | - | - |
Strip | - | 10 - 80 | 2.0 - 4.5 |
Ribbon | - | ≥ 0.10 | 0.2 - 4.0 |
Click here to download this data sheet in PDF format.