Molybdenum (Mo) Micron Powder
Purity: 99.95%, Size: 1–5 µm
Technical Properties:
| Property | Value |
|---|---|
| Purity | 99.95% |
| Particle Size | 1–5 µm |
| Elemental Analysis (wt%) | |
| Si | 0.01 |
| Fe | 0.005 |
| C | 0.005 |
| N | 0.005 |
| Ca | 0.005 |
| Mg | 0.003 |
| Al | 0.003 |
| P | 0.001 |
Applications:
Molybdenum micron powder is used across a wide range of high-performance engineering sectors due to its ultra-high melting point, strong thermal and electrical conductivity, corrosion resistance, and mechanical durability. Key application domains include:
- Steel & Alloy Engineering: Alloying agent for high-strength steels and superalloys, improving creep resistance, hardness, and thermal stability. Used in tool steels, stainless steels, and Mo-based alloys.
- Aerospace & Automotive: Structural and high-temperature components such as turbine blades, propulsion elements, and lightweight performance parts.
- Electronics & Thermal Management: Semiconductor substrates, heat sinks, thin-film components, and thermal interface materials requiring high conductivity and low thermal expansion.
- Energy & Power Systems: Components for nuclear reactors, power plant turbines, and high-temperature furnaces where stability under extreme conditions is essential.
- Additive Manufacturing & Powder Metallurgy: Suitable for 3D printing (LPBF, EBM, DED) and sintered parts needing wear resistance and dimensional stability.
- Catalysis & Chemical Processing: Active material in hydrodesulfurization, reforming, oxidation reactions, and hydrogen evolution catalysis (HER).
- Biomedical Applications: Investigated for corrosion-resistant implants, prosthetics, surgical tools, and emerging medical technologies.
- Environmental & Safety Technologies: Used in filtration, gas sensing, and pollutant remediation, including catalytic degradation of NOx, VOCs, and heavy metals.
