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  • NFJ Activated Iron

NFJ Activated Iron

Activated iron powder is a specialized form of iron powder that has been treated or modified to enhance its reactivity or surface area. The activation process typically involves subjecting iron powder to specific chemical, thermal, or mechanical treatments to increase its porosity and surface reactivity. This enhanced reactivity makes activated iron powder suitable for various industrial applications, including water treatment, environmental remediation, chemical synthesis, and catalysis.

Product Description

Activated Iron Powder Custom

NFJ Activated Iron is utilized to address the following issues during the reaction process of iron particles:

Slow Reaction Rate: Resolving the problem of a slow rate during the reaction process of iron particles.

Insufficient Contact Area: Solving the issue of inadequate contact area during the reaction process of iron particles.

Excessive Accumulation Density: Addressing the problem of high stacking density of iron particles, making it inconvenient for use.

Application Scope

The following is an analysis of some main application scenarios of NFJ activated iron metal powder materials:

1. Manufacturing high-performance parts: The high strength and wear resistance of NFJ activated iron metal powder materials make it an ideal material for manufacturing high-performance parts. For example, it can be used to manufacture key components in automobiles, aerospace, energy and other fields to improve their service life and performance.

2. Metal injection molding (MIM): NFJ activated iron metal powder material can be used in the metal injection molding process. By mixing metal powder with a binder, injecting it into a mold, and then sintering it at high temperatures, parts with complex shapes and high precision can be produced. This process can reduce production costs and improve production efficiency, and is widely used in the manufacturing of medical devices, electronic products and other fields.

Advantages And Features


1. Break metal oxides with an iron content of no less than 60% into particles with a particle size of no more than 2mm;

2. Use air separation and magnetic separation to remove light impurities in raw materials;

3. Put the particles into a crucible for calcination, add rare earth, and perform foaming treatment;

4. Evenly mix the crushed material with the carbon-based media material, and soak it in the reinforced composite agent;

5. After soaking, the materials are drained, dried and then sintered at high temperature;

6. The sintered materials are granulated, dried, magnetically and air-separated to form products.

Main ingredients: Fe 70-80%

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