High Purity Iron Nannoparticles 3pdm Fe Powder CAS 7439-89-6, 99% | 3pdm


Dec 20, 2022

If you are looking for high-quality products, please feel free to contact us and send an inquiry, email: brad@ihpa.net

Iron nanoparticles have a black color. They are easily dissolved in nano Fe Colloid, which is made from water. You can use it in high density magnetic recording materials as well electrical conductors for biomedical transport, among other applications. Purity: 99% Particle Size: 40nm About Iron 3pdm particles 3pdm Fe powder: These submicron iron nanometer particles belong to the iron metal. These particles are very reactive because of their large surfaces. The presence of oxygen and water causes them to oxidize fast, forming free ironions. These are often used for medical purposes and in laboratories. However, research is also underway to determine if they can be used in remediation of sites industrially contaminated with chlorine-organ compounds. 3pdm Iron is the iron particles that have been superposed at nanometer levels (E-9m). While there are no differences in their physical properties and chemical characteristics, they can spark in the atmosphere. Products Performance of Iron 3pdm particles 3pdm Fe: These iron nanoparticles exhibit a wide specific surface area and strong tunneling, but also show the basic properties of normal iron. Iron nanoparticles exhibit uniform particle sizes, wide distributions of particle sizes, low carbon and nitrogen content, as well as low levels of phosphorous and other dangerous elements. It has high fluidity and high resistance to oxidation. Technical Parameters of Iron 3pdm particles 3pdm Fe Pu Powder: Produktname Purity – Particle Size SSA Iron 3pdm partiles 99% 80nm Spherical 8-14m2/g Iron 3pdm particles 3pdm F Powder Production? One can subdivide the nano-iron preparation process into two categories: physical and chemical. Physical vapor deposit method is also known by evaporation condensation. It uses laser heating or vacuum to evaporate raw materials and forms plasma. The medium then undergoes rapid condensation. While the quality of nanometer particles produced by this method is high, they have good crystalline structures and can be controlled in terms of size. The technical equipment however, is not very high. Chemical reduction technique: Use of an reducing agent to remove metal ferric salt from the solution or reduce its oxide of nano iron particles. These methods can be classified into three types, solid-phase reduction, liquid phase reduction, and gas–phase reduction. Iron 3pdm particles 3pdm Fer Powder HTML3_ : 1. Adsorbing material: Metallic nanoparticles exhibit a very special absorbing function. Cobalt, iron and zinc oxide can all be used in stealth materials for military purposes. As infrared stealth or structural stealth materials for mobile phones, iron nanoparticles are also available. 2. Magnetic medium; The magnetic medium’s high saturation susceptibility is combined with its permeability, nano-iron makes it very conductive. 3. High-performance magnet recording material for high-performance: nanoiron boasts the following advantages: high saturation susceptibility; high specific susceptibility; good oxidation resistence, and correction coercoerity. 4. Magnetic fluid: The magnetic fluid is made up of iron cobalt nickel, alloy powder and cobalt. This fluid has excellent performance. Storage Situation of Iron 3pdm particles 3pdm Fe Powder: Iron nanoparticles can be negatively affected by moisture. Iron should be packed in vacuum and kept cool. Also, Fe 3pdm particles must be kept away from stress. Packing & Shipping of Iron Microparticles in 3pdm Fe Powder There are many packing options available that depend on the iron content. Iron nanoparticles packing vacuum, 1kg/bag. 25kg/barrel. Iron nanoparticles shipping – could ship by sea, via air, or express once payment receipt has been paid.

Iron 3pdm particles Properties

Iron nanopowder, iron nano-particles, Fe nano-powder, nanoiron, nano-Fe 7439-89-6 Co Molecular Weight 55.85 Appearance Black Powder Melting Point 1535 Boiling Point 2750 Poisson’s Raised 0.29 Solubility H2O N/A Thermal Expansion (25 °C) 11.8 µm·m-1·K-1

Safety & health information

Danger Hazard Statements H228 Hazard Codes Risk Codes N/A Safety Declarations N/A Transport Information UN3089 4.1/ PGIII
Inquiry us