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Sandvik Nikrothal 80 Resistance Wire
Categories: Metal; Nonferrous Metal; Nickel Alloy
Material Notes: NIKROTHAL 80 is a high grade austenitic alloy. Due to its malleability and strength at high temperatures, NIKROTHAL 80 is especially suited for applications in the electrical appliance industry. In industrial furnace use NIKROTHAL 80 has many advantages due to its excellent mechanical properties in the hot state.

NIKROTHAL 80 has superior life compared to competitive NiCr alloys because of the extremely good adhesion properties of the surface oxide. Typical applications for NIKROTHAL 80 are flat irons, ironing machines, water heaters, plastic moulding dies, soldering irons, metal sheathed tubular elements, cartridge elements, etc.

Information provided by Sandvik
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Physical PropertiesOriginal ValueComments
Density 8.30 g/cc
 
Mechanical PropertiesOriginal ValueComments
Hardness, Vickers 160
@Thickness 4.00 mm
 180
@Thickness 1.00 mm
Tensile Strength, Ultimate 100 MPa
@Temperature 900 °C		deformation rate= 6.2x10-2/min
 725 MPa
@Thickness 4.00 mm
 810 MPa
@Thickness 1.00 mm
Tensile Strength, Yield 300 MPa
@Strain 0.2 %,
Thickness 4.00 mm
 420 MPa
@Strain 0.2 %,
Thickness 1.00 mm
Elongation at Break 30 %
@Thickness 1.00 mm
 30 %
@Thickness 4.00 mm
Creep Strength 4.00 MPa
@Temperature 1000 °C,
Time 3.60e+6 sec		1% elongation
 15.0 MPa
@Temperature 800 °C,
Time 3.60e+6 sec		1% elongation
 
Electrical PropertiesOriginal ValueComments
Electrical Resistivity 0.000109 ohm-cm
 0.000110 ohm-cm
@Temperature 100 °C
 0.000111 ohm-cm
@Temperature 200 °C
 0.000112 ohm-cm
@Temperature 300 °C
 0.000113 ohm-cm
@Temperature 400 °C
 0.000113 ohm-cm
@Temperature 500 °C
 0.000113 ohm-cm
@Temperature 600 °C
 0.000113 ohm-cm
@Temperature 700 °C
 0.000113 ohm-cm
@Temperature 800 °C
 0.000113 ohm-cm
@Temperature 900 °C
 0.000114 ohm-cm
@Temperature 1000 °C
 0.000115 ohm-cm
@Temperature 1100 °C
 0.000116 ohm-cm
@Temperature 1200 °C
 
Thermal PropertiesOriginal ValueComments
CTE, linear 14.1 µm/m-°C
@Temperature 20.0 - 250 °C
 14.9 µm/m-°C
@Temperature 20.0 - 500 °C
 16.0 µm/m-°C
@Temperature 20.0 - 750 °C
 17.2 µm/m-°C
@Temperature 20.0 - 1000 °C
Specific Heat Capacity 0.460 J/g-°C
@Temperature 20.0 °C
 0.460 J/g-°C
@Temperature 100 °C
 0.480 J/g-°C
@Temperature 200 °C
 0.500 J/g-°C
@Temperature 300 °C
 0.520 J/g-°C
@Temperature 400 °C
 0.540 J/g-°C
@Temperature 500 °C
 0.560 J/g-°C
@Temperature 600 °C
 0.600 J/g-°C
@Temperature 700 °C
 0.630 J/g-°C
@Temperature 800 °C
 0.650 J/g-°C
@Temperature 900 °C
 0.670 J/g-°C
@Temperature 1000 °C
 0.700 J/g-°C
@Temperature 1100 °C
Thermal Conductivity 15.0 W/m-K
@Temperature 20.0 °C
 15.0 W/m-K
@Temperature 100 °C
 15.0 W/m-K
@Temperature 200 °C
 15.0 W/m-K
@Temperature 300 °C
 17.0 W/m-K
@Temperature 400 °C
 19.0 W/m-K
@Temperature 500 °C
 21.0 W/m-K
@Temperature 600 °C
 22.0 W/m-K
@Temperature 700 °C
 24.0 W/m-K
@Temperature 800 °C
 26.0 W/m-K
@Temperature 900 °C
 28.0 W/m-K
@Temperature 1000 °C
 30.0 W/m-K
@Temperature 1100 °C
Melting Point 1400 °C
Maximum Service Temperature, Air 1200 °C
 
Optical PropertiesOriginal ValueComments
Emissivity (0-1) 0.88fully oxidized
 
Component Elements PropertiesOriginal ValueComments
Carbon, C <= 0.10 %
Chromium, Cr 19 - 21 %
Iron, Fe >= 2.0 %
Manganese, Mn <= 1.0 %
Nickel, Ni >= 74.2 %
Silicon, Si 1.0 - 1.7 %

Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistent format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's terms of use regarding this information. Click here to go back to viewing the property data in MatWeb's normal format.

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NSANDV077 / 18971

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