The principle of Femo60 refers to the excellent comprehensive performance of tungsten's antioxidant ability and iron's high thermal conductivity. Specifically, ferromolybdenum has good oxidation resistance at high temperatures, which can prevent boilers, heating furnaces, electric furnaces and other equipment from oxidizing and causing corrosion during use. At the same time, ferromolybdenum also has high requirements for thermal conductivity, which can quickly transfer heat from high-temperature areas to low-temperature areas to achieve heating or heat preservation effects.

In the energy field, Femo Ferromolybdenum, as a high-temperature resistant and anti-oxidation material, is widely used in components in high-temperature environments such as fuel nozzles and combustion chambers. As nuclear energy technology becomes more and more widely used, ferromolybdenum has become an indispensable material in nuclear fuel components.

In the field of materials engineering, the high thermal conductivity of molybdenum Ferro materials allows it to be widely used in machine parts, electrical components and other fields. In addition, with the continuous development of 3D printing technology, the special properties of ferromolybdenum have also been more widely used.

In the field of metallurgy, Metallurgical Ferro Molybdenum is also widely used, typically as a vulcanizing agent and dehydrogenating agent in steel production. Femo can also be used as a high-temperature beautifying agent to improve the surface quality of steel.