Fe-Cr-Co Alloy Nanoparticles / Nanopowder (Purity 99.5%, Particle Size <100 nm)
₹1475.00
🧪 Fe-Cr-Co Alloy Nanoparticles / Nanopowder (Purity 99.5%, Particle Size <100 nm)
⚙️ Technical Specifications
Property | Specification |
|---|---|
Material Name | Iron-Chromium-Cobalt (Fe-Cr-Co) Alloy Nanoparticles |
Composition | Fe-Cr-Co (customizable ratios, commonly 70:15:15, 65:20:15) |
Purity | 99.5% |
Average Particle Size | <100 nm |
Appearance / Color | Dark gray to black metallic fine powder |
Crystal Structure | Body-Centered Cubic (BCC) / Alloy structure |
Density | ~7.8 g/cm³ (composition-dependent) |
Melting Point | 1400–1600 °C (alloy-dependent) |
Magnetic Properties | Ferromagnetic; high saturation magnetization |
Electrical Conductivity | Moderate metallic conductivity |
Thermal Conductivity | Good; suitable for magnetic and electronic applications |
Solubility | Insoluble in water; stable under ambient conditions |
CAS Number | 7439-89-6 (Fe), 7440-47-3 (Cr), 7440-48-4 (Co) |
Storage Conditions | Store in airtight container under inert atmosphere; protect from moisture, acids, and oxidizers |
🌟 Key Features
High-purity Fe-Cr-Co alloy nanoparticles (<100 nm)
Excellent ferromagnetic properties with high coercivity and saturation magnetization
Good chemical stability and oxidation resistance
Uniform nanoscale particle distribution
High thermal and mechanical stability
Ideal for magnetic devices, sensors, and nanocomposites
🔬 Applications
1. Magnetic Materials
Used in permanent magnets, magnetic recording media, and magnetic sensors
High saturation magnetization and coercivity suitable for high-performance magnetic applications
2. Electronics & Nanocomposites
Incorporated into polymers, ceramics, and hybrid materials for enhanced magnetic, mechanical, and thermal properties
Used in electronic devices, actuators, and inductors
3. Catalysis
Acts as a catalyst or catalyst support in chemical and electrochemical reactions
4. Energy & Sensors
Applied in magnetic sensors, inductors, and energy storage devices
5. Research & Material Science
Ideal for nanomaterial synthesis, magnetic alloy studies, and functional magnetic composites
⚠️ Handling & Storage
Store in a dry, airtight container under argon or nitrogen atmosphere
Avoid contact with strong acids, bases, and oxidizing agents
Handle with gloves, mask, and protective eyewear
Use in well-ventilated areas to minimize nanoparticle inhalation
Keep away from heat, sparks, and direct sunlight