Product Overview
Our Coated Aluminum Nanoparticles are specifically engineered to optimize thermal properties in a variety of applications. These nanoparticles are coated with a thin layer of materials that enhance their thermal conductivity and stability, making them ideal for use in high-performance thermal interface materials (TIMs), advanced coatings, and composite materials. The coating not only protects the aluminum core from oxidation but also enhances its dispersibility and interaction with other materials in the composite matrix.
Key factor
- Particle Size: Nano-sized particles typically less than 100nm, maximizing surface area for better heat transfer.
- Coating Material: Various coatings available, tailored to specific application needs, such as silica, titanium dioxide, or other specialized materials.
- Purity: High purity aluminum core ensures consistent thermal properties and reliable performance.
- Form: Available as a dry powder, easily incorporated into various formulations and processes.
Applications
- The thermal properties of various uncoated and coated aluminum nanoparticle and their effects on the thermal stability, outgassing behavior, and electrostatic discharge sensitiveness of various energetic materials were studied.
- The coated on aluminum nanoparticle had a layer of 7-25% mass of polymer.
- Aluminum nanoparticles are very reactive in the presence of water, resulting in aging problems. The coating of polymer has a minor effect on the reactivity of aluminum nanoparticles with water.
- The study shows that the coated aluminum nanoparticle is more stable than uncoated Nano powder in humid atmospheres.
- Aluminum nanoparticle is commonly added to explosive and propellants to improve their performance.
- Because it has large specific surface area, aluminum nanoparticle can produce dramatic improvements in the performance of some energetic materials.
Advantages
- Improved Thermal Conductivity: The coated nanoparticles conduct heat more efficiently, enhancing the performance of thermal management systems.
- Enhanced Stability: The coating provides a barrier against oxidation and degradation at high temperatures, maintaining the particles' integrity and functionality.
- Increased Compatibility: Coatings can be tailored to improve compatibility with various solvents and resins, facilitating better dispersion in composite matrices.
- Versatility: Suitable for a broad range of applications, from industrial heat management to consumer electronics.
Why HIYKA
With a well-established supply chain and efficient logistics network, Hiyka ensures timely and efficient delivery, facilitating seamless integration into your production cycles and maintaining project timelines.
Opting for Hiyka's Coated Aluminum Nanoparticles for Enhanced Thermal Properties means selecting a high-performance material that not only meets but exceeds the stringent demands of modern thermal management applications. Whether for enhancing industrial tools, creating conductive coatings, or improving electronic components, our coated aluminum nanoparticles are engineered to deliver superior thermal conductivity and performance.
