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Use Kanthal® alloys
Avoid temperature fluctuations
Choose thick element material
Adjust the element temperature to the furnace atmosphere
Avoid corrosion from solid substances, fluids and gasses
In these respects the aluminum oxide formed on Kanthal® alloys is even better than the oxide formed on Nikrothal® alloys, which contributes to the much longer operating life of Kanthal® heating elements. The diagram below shows the comparative element life. In this chapter you will find some general advice to obtain as long element life as possible.
Use Kanthal® alloys
Heating elements made of Kanthal® alloys have up to four times longer life than heating elements made of nickel-chromium material. The higher the temperature, the greater the difference.
Avoid temperature fluctuations
The operating life of the heating elements will be reduced by rapid temperature fluctuations. It is therefore advisable to choose an electric control equipment, which gives as even a temperature as possible, e.g. by using thyristors.
Comparative life (Kanthal® A-1 at 1200°C = 100%)
Choose thick element material
The material thickness has a direct relationship to the element life, in that, as the wire diameter is increased, more alloying element is available per surface unit to form a new oxide. Thus, at a given temperature, thicker wires will give a longer life than thinner wires. Accordingly, for strip elements, increased thickness gives a longer life. As a general rule, we recommend minimum 3mm wire diameter and 2 mm strip thickness.
Adjust The Element Temperature To The Furnace Atmosphere
The table shows some common furnace atmospheres and their influence on the maximum operating temperature of the heating elements. Nikrothal® should not be used in furnaces having a CO-containing protective gas atmosphere due to the risk of “green rot” at 800–950°C.
In such cases Kanthal® alloys are recommended, provided the heating elements are pre-oxidized in air at 1050°C for 7–10 hours. Reoxidation of the heating elements should be carried out at regular intervals.
Avoid Corrosion From Solid Substances, Fluids And Gasses
Impurities in the furnace atmosphere, for instance oil, dust, volatiles or carbon deposits can damage the heating elements. Sulphur is harmful to all nickel alloys. Chlorine in different forms will attack both Kanthal® and Nikrothal® alloys. Splashes of molten metal or salt may also damage the heating elements.
Maximum permissible temperatures in various atmospheres
| Kanthal® A-1 and Kanthal® APM | Kanthal® AF | Kanthal® D | Nikrothal®80 and 70 | Nikrothal® 60 | Nikrothal® 40 | |
| °C | °C | °C | °C | °C | °C | |
| Oxidizing: | ||||||
| Air, dry | 1400a) | 1300 | 1300 | 1200d) | 1150 | 1100 |
| Air, moist | 1200 | 1200 | 1200 | 1150 | 1100 | 1050 |
| Neutral: | ||||||
| N2, Nitrogenb) | 1200 | 1250 | 1150 | 1250 | 1200 | 1150 |
| Ar, Argon | 1400a) | 1300 | 1300 | 1250 | 1200 | 1150 |
| Exothermic: | ||||||
| 10 CO, 15 H2, 5 CO2, 70 N2 | 1150 | 1150 | 1100 | 1100c) | 1100 | 1100 |
| Reducing: | ||||||
| Endothermic: | ||||||
| 20 CO, 40 H2, 40 N2 | 1050 | 1050 | 1000 | 1100c) | 1100 | 1100 |
| H2, Hydrogen | 1400a) | 1300 | 1300 | 1250 | 1200 | 1150 |
| Cracked ammoniae): | ||||||
| 75 H2, 25 N2 | 1200 | 1200 | 1100 | 1250 | 1200 | 1150 |
| Vacuum: | ||||||
| 10-3 dry | 1150 | 1200 | 1100 | 1000 | 900 | 900 |
a) Max 1425°C for Kanthal APM
b) The higher values apply for preoxidized material
c) Please note risk of “green rot” formation in carburizing atmospheres. Use Kanthal® AF or Nikrothal® 70
d) 1250°C for Nikrothal 70
e) An atmosphere created by cracked ammonia, that contains uncracked ammonia, will lower the max. permissible temperature
