Titaani-molybdeeni-zirkoniumseos
Titanium-molybdenum-zirconium alloy is a molybdenum-based high-temperature alloy with excellent high-temperature properties.
Titanium-molybdenum-zirconium alloy, also known as TZM alloy, is a high-temperature alloy formed by adding molybdenum (Mo) as a matrix and adding alloy elements such astitanium.html> titanium (Ti) and zirconium (Zr). The main features of this alloy include:
1. High temperature strength: TZM alloy can still maintain good strength at high temperatures, which makes it suitable for high temperature working environments.
2. Recrystallization temperature: The alloy has a high recrystallization temperature, which means that the material's stability and mechanical properties can be maintained at high temperatures.
3. Room temperature plasticity: Although it is a high-temperature alloy, TZM alloy also exhibits good plasticity at room temperature, which is helpful for processing and application at room temperature.
4. Melting point: Due to its high melting point, TZM alloy can be used to manufacture die-casting molds and perforated heads of seamless stainless steel, especially in applications that require high temperature resistance.
In general, titanium-molybdenum-zirconium alloys are widely used in aerospace, automobile manufacturing, electronic appliances and other fields due to their unique properties. For example, it can be used to manufacture engine parts, structural materials for high-temperature furnaces, radiators in electronic devices, etc. In addition, due to its corrosion resistance and stability at high temperatures, TZM alloy is also used in some key components in the chemical and energy industries.
What are the application fields of titanium-molybdenum-zirconium alloy?
Titanium-zirconium-molybdenum alloy, also known as TZM alloy, is a molybdenum-based high-temperature alloy with excellent high-temperature mechanical properties. It is widely used in many fields, as follows:
- Aerospace field: Due to its high temperature resistance, TZM alloy is used to manufacture high-temperature structural parts of jet engines, such as turbine blades and combustion chambers.
- Chemical and energy industries: In these industries, TZM alloys are often used to manufacture corrosion-resistant equipment and components, such as components in chemical reactors and nuclear reactors.
- Electronic and electrical fields: TZM alloy is also used as a heat sink material in electronic devices because it can maintain stable heat conduction properties at high temperatures.
In addition, TZM alloys are also used in automobile manufacturing, high-temperature furnace structural materials, and radiators in electronic devices. Its high melting point makes it suitable for manufacturing die-casting molds and perforated heads of seamless stainless steel.
In general, titanium-zirconium-molybdenum alloy has an irreplaceable position in the industrial field due to its excellent high-temperature performance and corrosion resistance, especially in applications in extreme environments, which highlights its value.
Physical properties of titanium, zirconium and molybdenum alloys
Titanium-zirconium-molybdenum alloy, also known as TZM alloy, is a high-temperature alloy formed by adding molybdenum as a matrix and adding alloy elements such as titanium and zirconium. It has the following physical properties:
- Density: TZM alloy has a high density and is a heavy material. This makes it particularly useful in areas where the weight of the material is critical to equipment stability.
- Melting point: The melting point of this alloy is very high and it is a refractory metal material. This property enables it to maintain physical form and structural stability in extremely high temperature environments.
- Modulus of elasticity: TZM alloy has a higher modulus of elasticity, which means it has higher stiffness and can withstand greater stress without deformation.
- Coefficient of thermal expansion: The alloy has a low coefficient of thermal expansion, which provides good dimensional stability and is an ideal material in applications requiring precision dimensions under temperature changes.
- Thermal conductivity: TZM alloy has good thermal conductivity, which is very important for applications that require effective heat dissipation.
- Corrosion resistance: It also has good corrosion resistance and can be used for a long time in harsh environments without damage.
In addition to the above physical properties, TZM alloy also has excellent high temperature resistance, greater strength, higher recrystallization temperature, better room temperature plasticity, good oxidation resistance and hot corrosion resistance, as well as better fatigue performance and Fracture toughness and other characteristics. These properties make TZM alloys widely used in aerospace, chemical industry, electronics and electrical appliances and other fields.
