What Is TZM Alloy Used For?

TZM alloy, titanium zirconium molybdenum alloy, is a high-performance material that is becoming increasingly popular in various industries. This molybdenum-based alloy offers a unique combination of strength, toughness and high temperature resistance, making it ideal for demanding applications.

Characteristics of TZM alloy
TZM alloy is made by adding small amounts of titanium and zirconium to pure molybdenum. The addition of these elements improves the properties of molybdenum, making TZM alloys high-performance materials with excellent strength and toughness.

TZM alloys have a higher recrystallization temperature than pure molybdenum, making them more resistant to thermal creep and deformation at high temperatures. Additionally, TZM alloy has a higher ultimate tensile strength and a higher elastic modulus, making it stronger and harder than pure molybdenum.

Applications of TZM alloy
TZM alloys are used in a variety of applications due to their unique combination of properties. Some of the most common applications for

TZM alloys include:

Aerospace: TZM alloys are used in the aerospace industry for high-temperature components such as nozzle guards, combustion chambers and heat exchangers.

Nuclear: TZM alloys are used in nuclear applications for components that require high temperature resistance and strength, such as control rod drives and fuel cladding.
High Temperature Furnace Components: TZM alloy is used in furnace components such as heating elements and insulating brackets due to its high temperature resistance and strength.
Medical Devices: TZM alloy is used in medical devices such as dental implants and surgical instruments due to its biocompatibility and high strength.
These are just a few of the many applications for TZM alloys. As this high-performance material continues to gain popularity, new applications may emerge in the future.