Optimization of processing technology: By improving the processing technology, such as the use of advanced rolling technology and strict quality control measures, thinner and more uniform molybdenum foil can be produced and its overall performance can be improved.
Surface treatment: In order to meet the requirements of specific applications, molybdenum foils can be surface treated, such as coating, plating or ion implantation. These surface treatments can improve the friction properties, corrosion resistance and electrical conductivity of molybdenum foils.
Alloying modification: By adding alloying elements, the mechanical properties and corrosion resistance of molybdenum foil can be improved. For example, the addition of titanium, zirconium and other elements can enhance the high temperature strength and oxidation resistance of molybdenum foil.
Nanometer: The use of nanotechnology to prepare molybdenum foil into nanostructured materials can significantly improve its mechanical and electrical properties. Nanometer molybdenum foil has higher electrical conductivity and stronger fatigue resistance, so it has a wide application prospect.
Molybdenum foil, as a high performance metal material, has been widely used in many fields. By optimizing its processing technology, surface treatment, alloying and nano properties, the application range of molybdenum foil can be further expanded and its comprehensive performance can be improved.