Here you can access material datasheets for our wide range of alloys and materials. Contact us if you need more information about our materials.
View datasheet for:
An austenitic nickel-chromium alloy (NiCr alloy) for use at temperatures up to 1200°C (2190°F). Nikrothal 80 is characterized by high resistivity, good oxidation resistance and very good form stability.
Several product forms available:
An austenitic copper-nickel alloy (CuNi alloy) with low resistivity used for the negative leg of the following types of thermocouples and compensating cables: E, J, T and KCB (VX).
Standard:
An austenitic nickel-iron alloy (NiFe alloy) with very low thermal expansion factor up to 180°C (356°F).
An austenitic nickel-chromium alloy (NiCr-alloy) for use at temperatures up to 1150°C (2100°F). Nikrothal 42 is characterized by good ductility after use and good corrosion resistance, except in sulphur containing atmospheres and certain controlled atmospheres.
An austenitic nickel-chromium alloy (NiCr alloy) for use at temperatures up to 300°C (570°F). Nikrothal LX is characterized by high resistivity in combination with low temperature coefficient of resistance.
Oxygen free (OF) copper and Oxygen free electronic (OFE) copper.
An austenitic nickel-chromium alloy (NiCr alloy) for use at temperatures up to 1050°C (1920°F). Nikrothal 20 is characterized by high resistivity and moderate oxidation resistance.
A copper-manganese-nickel alloy (CuMnNi alloy) for use at room temperature. Manganina 43 is characterized by very low thermal electromotive force (emf) compared to copper.
An austenitic nickel-chromium alloy (NiCr alloy) with addition of niobium. The alloy is characterized by high mechanical strength and suitable for furnace temperatures up to 1200°C (2192°F).
A nickel-iron alloy (NiFe alloy) for use at temperatures up to 600°C (1110°F). The alloy is characterized by very low resistivity and high temperature coefficient of resistance.
Go to page:Previous, 1, …, 3, 4, 5, 6, 7, 8(This page), 9Next
