Product Details
Place of Origin: Shanghai, China
Brand Name: TANKII
Certification: ISO9001:2015
Model Number: CuNi44
Payment & Shipping Terms
Minimum Order Quantity: 20kg
Price: To be negotiated
Packaging Details: Spool, carton, plywood case according to requirements
Delivery Time: 7-12 DAYS
Payment Terms: L/C, T/T, Western Union, Paypal
Supply Ability: 200+TON+MONTH
Material: |
CuNi Alloy |
Composition: |
Cu Ni |
Other Grade: |
Constantan/ Cuni44/ Cuni40 |
Shape: |
Foil/ Strip/ Sheet/ Plate |
Application: |
Precision Sensor |
Size: |
0.01mm-0.05mm |
Material: |
CuNi Alloy |
Composition: |
Cu Ni |
Other Grade: |
Constantan/ Cuni44/ Cuni40 |
Shape: |
Foil/ Strip/ Sheet/ Plate |
Application: |
Precision Sensor |
Size: |
0.01mm-0.05mm |
0.01mm-0.05mm Konstantan CuNi44 Foil/ Strip for Precision Sensor
Resistance alloy with moderate resistivity and low temperature coefficent of resistance with a flat resistance/temperature curve over a wider range than the "manganins". Constantan also shows better corrosion resistance than the manganins. Uses tend to be restricted to ac circuits. Constantan is also the negative element of the type J thermocouple with Iron being the positive; type J thermocouples are used in heat treating applications. Also, it is the negative element of the type T thermocouple with OFHC Copper the positive; type T thermocouples are used at cryogenic temperatures.
A copper-nickel alloy that contains specific minor amounts of additional elements to achieve precise values for the temperature coefficient of resistivity.
Constantan is a copper-nickel alloy usually consisting of 55% Copper and 45% Nickel. Its main feature is its resistance which is constant over a wide range of temperatures. Other alloys with similarly low temperature coefficients are known, such as Manganin (Cu86Mn12Ni2).
Of all modern strain gauge alloys, Constantan is the oldest, and still the most widely used. This situation reflects the fact that constantan has the best overall combination of properties needed for many strain gauge applications. This alloy has, for example, an adequately high strain sensitivity, or gauge factor, which is relatively insensitive to strain level and temperature. Its resistivity is high enough to achieve suitable resistance values in even very small grids, and its temperature coefficient of resistance is not excessive. In addition, constantan is characterized by good fatigue life and relatively high elongation capability. It must be noted, however, that constantan tends to exhibit a continuous drift at temperatures above 65 °C (150 °F); and this characteristic should be taken into account when zero stability of the strain gauge is critical over a period of hours or days.
Chemical Content, %
Ni | Mn | Fe | Si | Cu | Other | ROHS Directive | |||
Cd | Pb | Hg | Cr | ||||||
44 | 1.50% | 0.5 | - | Bal | - | ND | ND | ND | ND |
Mechanical Properties
Max Continuous Service Temp | 400ºC |
Resisivity at 20ºC | 0.49±5%ohm mm2/m |
Density | 8.9 g/cm3 |
Thermal Conductivity | -6(Max) |
Melting Point | 1280ºC |
Tensile Strength,N/mm2 Annealed,Soft | 340~535 Mpa |
Tensile Strength,N/mm3 Cold Rolled | 680~1070 Mpa |
Elongation(anneal) | 25%(Min) |
Elongation(cold rolled) | ≥Min)2%(Min) |
EMF vs Cu, μV/ºC (0~100ºC) | -43 |
Micrographic Structure | austenite |
Magnetic Property | Non |