Molybdenum and tungsten are two of the most important materials used in manufacturing today and are essential for a range of industrial and commercial applications. Molybdenum, often referred to as ‘moly’, is a hard, corrosion-resistant metal alloy and is commonly found in the form of molybdenum-steel alloys. Tungsten, on the other hand, is a grey-white metal and is considered to have the highest melting point of any element; being able to withstand temperatures up to 3,422 degrees Celsius.
Molybdenum and tungsten are used for a multitude of purposes including the production of cutting tools, electrical components and welding materials. They are also sometimes used in the nuclear industry due to their high density, which helps protect against corrosive environments and radiation damage. Molybdenum and tungsten are both non-toxic elements and are not radioactive, meaning they can be safely used in industrial and commercial processes.
Molybdenum and tungsten are typically mined from ore deposits found in areas of the world such as South America, Russia and China. The extraction of these elements requires specialised machinery and equipment, such as the use of electro-thermal processing and smelting. Once extracted, the material is then ready for use in manufacturing.
Molybdenum has a variety of uses in the fields of aerospace, energy, engineering, electronics and photography. It is used in the production of superalloys and corrosion-resistant materials, making it an important material in the construction of aircraft and spacecraft. It is also an important element in the production of steel, making it an important material in the manufacturing industry and construction.
Tungsten has a range of uses and is most commonly found in the production of armaments and tools. It is highly resistant to heat and wear and has one of the highest melting points and densities of any element, making it an ideal metal for use in many processes. It is also used in superalloys, which aid in heat transfer processes, making tungsten an important metal to many industries.
In conclusion, molybdenum and tungsten are two of the most important materials used in manufacturing today and are essential for a range of industrial and commercial applications. Molybdenum is frequently used in aerospace, engineering and the production of steel, whilst tungsten is used in a variety of ways from armaments to superalloys. Both materials are mined from ore deposits, and can often be extracted from them using specialised process and smelting techniques. Their non-toxic and non-radioactive characteristics make them important materials in many industries.
