Molybdenum Carbide |
Catalog No. |
Specification |
Morphology |
Color |
Ro–MoC–01 |
200nm |
Irregular |
Gray black |
Ro–MoC–02 |
500nm |
Irregular |
Gray black |
Ro–MoC–03 |
800nm |
Irregular |
Gray black |
Ro–MoC–04 |
1μm |
Irregular |
Gray black |
Ro–MoC–05 |
3μm |
Irregular |
Gray black |
Ro–MoC–06 |
5μm |
Irregular |
Gray black |
Ro–MoC–07 |
8μm |
Irregular |
Gray black |
Ro–MoC–08 |
12μm |
Irregular |
Gray black |
Can be customized according to customer requirements |
Application:
Nano Molybdenum Carbide, commonly referred to as MoC, is a cutting-edge material renowned for its multifaceted applications across various industries due to its exceptional physical and chemical properties. This ultra-fine ceramic compound is increasingly recognized for its role as a coating material, additive, and particle reinforcement in alloys, setting new standards in material performance and durability.
One of the primary uses of nano molybdenum carbide is as a coating material. Its superb wear resistance and corrosion resistance make it an ideal protective layer for a variety of materials, significantly enhancing their lifespan and reliability. Additionally, when utilized as an additive, nano MoC improves the overall performance of base materials, ensuring augmented functionality even under extreme conditions.
The application of nano molybdenum carbide doesn’t stop there; it is extensively employed in the production of particle-reinforced alloys. By reinforcing these alloys, nano MoC enhances mechanical properties, thermal stability, and corrosion resistance, which collectively improve the operational lifespan and efficiency of the final products.
What sets nano carbonitride apart is its unique electronic structure and catalytic properties comparable to precious metals. Notably, it exhibits catalytic activity in hydrogenation, de-nitrification, and isomerization reactions. These traits position nano molybdenum carbide as a promising alternative to platinum-group metals (PGMs) like Pt and Pd. Utilizing nano MoC can significantly reduce production costs while maintaining or even enhancing material performance in various catalytic applications.
In summary, nano molybdenum carbide is a remarkable material that not only provides superior solutions in protective coatings and composite enhancements but also opens up new avenues in catalysis, making it an invaluable asset in modern material science and engineering.