Refractory Metal Mo with strong wear resistance
Description
Refractory Metal W, also known as tungsten, is a highly sought-after material in various industries due to its unique properties. Its exceptional high-temperature resistance and high hardness make it an ideal material for use in applications that require withstanding extreme heat and high-wear environments.
In the aerospace industry, Refractory Metal W is commonly used in the production of high-temperature tungsten nozzles for aero engines. These nozzles are subjected to extreme temperatures and high levels of wear due to the harsh operating conditions of jet engines. The high hardness and temperature resistance of Refractory Metal W make it an ideal material for this application. Furthermore, Refractory Metal W is used to make aircraft parts that require high strength and durability, such as turbine blades and exhaust systems.
Another important application of Refractory Metal W is in the medical industry. The manufacture of thin-walled tungsten collimator grids is one of the common uses of Refractory Metal W in medical imaging applications. These grids are essential in diagnostic procedures, as they help to shape the radiation beams used to diagnose various medical conditions. The high-temperature resistance and hardness of Refractory Metal W make it an excellent material for this application, where precision and accuracy are crucial.
Additionally, Refractory Metal W is used in the production of heat sinks for deflector filters of thermonuclear fusion reactors. These heat sinks help to dissipate the heat generated during the fusion reaction, which is crucial for maintaining stable reactor conditions. Refractory Metal W's high-temperature resistance makes it an ideal material for this application.
In summary, Refractory Metal W is a highly valuable material in various industries due to its unique properties. Its high-temperature resistance and high hardness make it an excellent material for use in aerospace, medical, and nuclear industries. As technology advances, the demand for Refractory Metal W will continue to grow, and it will remain a vital material in various industries.
Chemistry
Element | Al | Fe | Cu | Mg | P | O | N | |
---|---|---|---|---|---|---|---|---|
Mass (%) | <0.0006 | <0.006 | <0.0015 | <0.0005 | <0.0015 | <0.018 | <0.002 |
Physical property
PSD | Flow Rate (sec/50g) | Apparent Density (g/cm3) | Tap Density(g/cm3) | Sphericity | |
---|---|---|---|---|---|
15-45μm | ≤10.5s/50g | ≥6.0g/cm3 | ≥6.3g/cm3 | ≥99.0% |
SLM Mechanical property
Elastic modulus(GPa) | 316 | |
Tensile strength(MPa) | 900-1000 |