Manganese (Mn) Micron Powder
Purity: 99.5 %, Size: 300 mesh
Technical Properties
| Property | Value |
|---|---|
| Purity | 99.5 % |
| Particle Size | 300 mesh |
Elemental Analysis (%)
| Element | Se | S | C | P | Fe | Si |
|---|---|---|---|---|---|---|
| Value | 0.05 | 0.02 | 0.01 | 0.002 | 0.03 | 0.004 |
Applications
Manganese micron powder, with its optimized particle size and intrinsic material properties—including high strength, corrosion resistance, magnetic behavior, and catalytic activity—serves as a versatile material across numerous advanced technology sectors.
Steel & Alloy Engineering: Critical alloying element that improves tensile strength, wear resistance, and structural durability in construction steels, stainless alloys, and high-performance automotive components.
Battery & Energy Storage: Used in lithium-ion, alkaline, and zinc-carbon batteries to improve energy density, thermal stability, and cycling efficiency; manganese-based cathodes such as LiMn₂O₄ are widely utilized.
Electronics & Magnetics: Applied in semiconductors, spintronic devices, magnetic shielding, and data storage systems due to its conductive and ferromagnetic properties.
Catalysis & Chemical Processing: Functions as a catalyst in oxidation reactions, petrochemical refining, hydrogen production, and OER processes for water splitting.
Ceramics & Pigments: Adds coloration and thermal resistance to pigments, glazes, and high-temperature coatings.
Biomedical Applications: Explored for drug delivery, MRI contrast, wound healing, and redox-driven therapeutic platforms.
Environmental & Safety Technologies: Used in gas sensors, pollutant detection, VOC degradation, and water/air purification systems via Mn oxide catalysis.
Aerospace & Automotive Materials: Integrated into advanced alloys providing enhanced heat resistance, mechanical performance, and weight optimization.
