Particle size: 50-70nm or 150nm
As the potential for nano-aluminum in various fields has become more apparent, it has drawn a lot of research attention. Nano aluminum powder is a spherical powder that can be gray or black. It’s aggregated into a gray or black powder and has varying sizes between 10nm and 5um.
Aluminum nano-powder has a better sintering of ceramics. It has a higher heat transfer performance and higher density.
It is possible to use solar energy to generate electricity by combining waste and aluminum nanopowders. The performance and application of thermoelectric materials is dependent on the electrical conductivity, absolute temperatures, lattice temperature conductivity, and electronic thermal conduction.
Aluminum nanopowder has the potential to be an environmentally-friendly generator and a temperature-controllable electronic refrigerator device. This is because it’s one of the most simple energy conversion techniques. Widespread concern. The thermoelectric performance is determined by the thermoelectric materials’ basic characteristics and their quality factor. Since the thermoelectric effect is able to convert thermal energy directly into electrical energy, thermoelectric material has attracted wide attention.
The Seebeck Coefficient of Aluminum Nanopowder is an important parameter for measuring the ability of a material in generating a voltage as a result of a temperature gradient. This study examined the effects of aluminum nanoparticles in silicon-based thermal generators. This application is due in part to the difficulty of obtaining thermoelectric materials, and in part to the high-power required by biomedical devices. If you are interested in purchasing Aluminum Nanoparticles Nano Al Powder, please send us an email to receive the most recent price.
Product Performance of Nano Al powder:
Aluminium Nanoparticles, Nano Al Powder:
Product Name | MF | Purity | Particle Size | CAS | Melting Point | Color |
Aluminum Nanoparticles | Al | 99% | 50-70nm, 150nm | 7429-90-5 | 660 | Gray |
How does Aluminum nanoparticles (nano Al powder ) are produced?
Nano aluminum powders are produced by the electric explosion and arc method. Aluminum nanopowders exhibit a greater size dependence than ultrafine or larger particles. Aluminum nanoparticles have been used as an ingredient in solid rocket propellant formulas and explosives. Aluminum nanoparticles may be created by various chemical and physical methods. Micro EDM has not been used to produce aluminum nanoparticles.
1. Nano-aluminum powder is added to solid fuel in the rockets, increasing the fuel burning speed and improving the combustion stability.
2. The thermal conductivity can be increased by up to 10 times if the nano aluminum substrate is used for integrated components. Can solve integration problems of integrated components.
3. Surface conductive treatment of metals or scrap metals. Due to the high activation of surface energy in nano-aluminum powder, the coating is applied at a lower temperature than the melting point under oxygen-free condition. This technology is applicable to the production microelectronics devices.
4. It is widely used in high grade metal pigments and composite materials. (thermal-spraying composite metal powders; ceramic composite steel pipe).
In order to avoid the damp reunion, it is important that you store your nano Al powder in a dry and cool room. Al Nanoparticles are also to be avoided when under stress.
Packing & Shipping of Aluminum Nanoparticles Nano Al Powder
We offer a variety of different packings depending on the quantity of aluminum nanoparticles.
Aluminum nanoparticles packing: As per your request, vacuum packaging is available in 1kg/bags, 25kg/barrels, or both.
Aluminum nanoparticles: Once payment has been received, goods can be shipped by sea or air.
Properties and Applications of Aluminum Nanoparticles |
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Alternative Names |
Aluminium nanopowder, nanoaluminum,
Al nanoparticles, Nano Al Powder |
CAS Number | 7429-90-5 |
Compound Formula | Al |
Molecular Mass | 26.98 |
Appearance | Gray to Black Powder |
Melting Point | 660 |
Boiling Point | 2467 |
Specific Area | 40-60 m2/g |
Solubility In H2O | N/A |
Thermal Expander | (25 degC) 23.1 um*m-1*K-1 |
Health & Safety Information about Aluminum Nanoparticles |
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Sign Word | Danger |
Hazard Statements | H228 |
Hazard Codes | The following are some of the most effective ways to increase your chances of success: |
Risk Codes | N/A |
Safety Declarations | N/A |
Transport Information | UN1309 – class 4.1 – PG 2. |