|
| >>Basic character: |
| Name: |
Iron nanoparticle |
Packaging: |
Two-double plastic bag with static-free |
| Molecular Formula: |
Fe |
Appearance: |
Black powder |
|
| >>Usage: |
| Microwave-absorption materials |
Metal nanoparticles has special absorbing ability to electromagnetic wave. Iron, cobalt. Zinc oxide particles and its carbon package particles can be used as military high-performance millimeter wave invisible materials, visible light-infrared invisible materials and structural type invisible, and mobile radiation shielding materials. |
| Magnetic-conductive size |
With the advantages of high saturation magnetization and high magnetic inductivity of iron nanoparticle, magnetic conductive size can be made, it is used for the binding structure of fine magnetic head. |
| High-performance magnetic recording materials |
With its advantages including high coercivity, high saturation magnetization intensity (up to 1477km2/kg), signal-to-noise ratio and good oxidation resistance, it remarkably improves the performance of tape, large-capacity hard disk and soft disk. |
| Magnetic fluid |
The magnetic fluid made of iron, cobalt, nickel and its alloy particles provide excellent properties, they are widely used in seal shock absorption, medical equipment, acoustic adjustment, optical display, etc. |
|
| >>Technological parameter: |
| Product name |
Average particle size,nm |
Range of Diamete
,nm |
Purity,% |
Specific surface area,m2/g |
Bulk density
,g/cm3 |
Figure |
| Iron |
25 |
0-60 |
99.9+ |
40-60 |
0.10-0.25 |
Global |
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| >>Pictures: |
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| Appearance of iron nanoparticle |
Range of size of particles(nm) |
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