Copper Oxide–Magnesium Oxide Hybrid Nanofluid (CuO–MgO, 10–50 nm, 1–5 wt%)
₹1475.00
🧪 Copper Oxide–Magnesium Oxide Hybrid Nanofluid (CuO–MgO, 10–50 nm, 1–5 wt%)
⚙️ Technical Specifications
Property | Specification |
|---|---|
Material Name | CuO–MgO Hybrid Nanofluid |
Chemical Formula | CuO + MgO |
Purity | >99% (nanoparticles) |
Particle Size | 10–50 nm |
Concentration | 1–5 wt% (adjustable) |
Base Fluid | Deionized water, ethylene glycol, or mixture |
Appearance / Color | Dark brown to black stable dispersion |
Stability | Stable for several weeks with surfactants/stabilizers |
pH | 6–8 (adjustable) |
Density | ~1.0–1.2 g/cm³ (depending on base fluid and concentration) |
Viscosity | Slightly higher than base fluid (depends on concentration) |
Storage Conditions | Store in sealed container, away from light, heat, and strong acids/bases |
🌟 Key Features
High-purity CuO–MgO hybrid nanoparticles (10–50 nm)
Synergistic effect of CuO and MgO for enhanced thermal conductivity and stability
Stable nanofluid dispersion with low sedimentation
Adjustable concentration (1–5 wt%) for tailored applications
Compatible with water, glycol, and other heat transfer fluids
🔬 Applications
1. Heat Transfer & Thermal Management
Used in cooling systems, heat exchangers, and electronics thermal management
2. Energy Systems
Enhances thermal performance in batteries, solar collectors, and fuel cells
3. Industrial Processes
Applied in chemical reactors, machining fluids, and high-temperature cooling systems
4. Tribology & Lubrication
Reduces friction and wear when used as a lubricant additive
5. Research & Nanofluid Studies
Ideal for hybrid nanofluid research, thermal property optimization, and advanced fluid mechanics
⚠️ Handling & Storage
Store in a sealed container away from heat, strong acids, and bases
Shake or stir before use to ensure homogeneous dispersion
Handle with gloves, protective eyewear, and lab coat
Avoid direct inhalation or contact with eyes/skin