Prior to Russia’s invasion of Ukraine, nickel prices were already rising steadily in recent years, driven by growing demand for electric cars and lithium-ion batteries. And now, with Russia being the world’s third largest exporter of nickel, sanctions have caused a massive spike in prices. With so much uncertainty about how the situation in Ukraine will play out, along with wide-spread commodity shortages, inflationary pressure and continued growth in electric vehicles, prices are likely to remain unpredictable for some time yet.
Kanthal® APM and Kanthal® APMT tubes. “These are produced using a heat resistant alloy based on iron-chromium-aluminum that offers longer life and can operate at higher maximum temperatures,” says Krister Wickman, Global Product Manager, Kanthal. “As such, they can help furnace builders to overcome many of the limitations and disadvantages of using conventional nickel-based alloys.”The good news for furnace builders is that there is an alternative to nickel-chromium (NiCr) tubes – namely
Lighter material with higher mechanical strength
Tubes in Kanthal® APM and APMT offer a unique combination of strength and corrosion resistance, which allow them to be used at higher temperatures than NiCr tubes. At furnace temperatures of 1000°C (1830°F), loading can be more than double compared to NiCr meaning fewer tubes are needed to achieve the same power rating. Tubes in Kanthal® APMT alloys also have around 10% lower density and thinner walls than the equivalent NiCr tube of the same dimension. But despite weighing less, Kanthal® APM and APMT tubes have much higher sag resistance and less deformation than NiCr tubes at high temperatures.
“They have similar strength values but APM and APMT can retain much of their strength at temperatures well above the working temperature of NiCr tubes,” says Krister.
Superior protective properties
When heated, Kanthal® APM and APMT alloys form an aluminum oxide scale that give it a high level of oxidation resistance. It also provides excellent high temperature corrosion resistance to carburization and sulphidation. Unlike the surface oxide on NiCr materials, this protective alumina layer does not catalyze coke formation. Since they’re nickel-free, these tubes are free from the destructive nickel sulphide formation that affects NiCr tubes, thus protecting them from corrosion in highly sulphurous atmospheres. Overall, they remain completely unaffected by the carbon attacks that typically cause NiCr based alloy tubes to degrade and eventually fail.
The result means longer life and less maintenance. Unlike NiCr tubes, Kanthal® APM and APMT tubes do not need to be periodically cleaned inside for scale. Nor do they cause spalling oxide, which can contaminate the furnace and cause short circuits or failure of elements and gas burners.
“In fact, APM and APMT tubes require no maintenance during operation, which means fewer production stoppages,” says Krister. “There is a misconception that Kanthal® APM and APMT tubes are expensive, but with the current price of nickel, they actually cost the same as high-content nickel tubes and the difference to low-content nickel tubes is shrinking. When you factor in APM and APMT’s longer life and trouble free operation, they are actually very cost-effective.”
Kanthal® APM and Kanthal® APMT
Kanthal® APM is an Advanced Powder Metallurgical, ferritic iron-chromium-aluminum alloy (FeCrAl alloy) for use at tube temperatures up to 1250°C (2280°F).
Kanthal® APMT has even better hot strength properties and is specifically developed for tubes in horizontal installations with long support distances.
Typical applications are radiant tubes in electrically or gas fired furnaces such as continuous galvanizing furnaces, seal quench furnaces, holding furnaces and dosing furnaces in the aluminum, zinc, lead industries, thermocouple protection tubes, furnace muffles for sintering applications.