Iron Metal Powder Hydrogen Reduced
Iron Metal Powder Hydrogen Reduced - Image 2

Iron Metal Powder Hydrogen Reduced

Price range: $9.99 through $12.00

Technical Specifications

Product: Iron Metal Powder
Material: Iron (Fe)
Production Method: Hydrogen Reduced
Particle Size: –325 Mesh (Ultra Fine)
Net Weight: 100 g
Physical Form: Fine Powder
Color: Gray Metallic
Purity: High Purity
Magnetic Properties: Ferromagnetic
Water Solubility: Insoluble in Water
Odor: Odorless

Physical Characteristics

  • Ultra-fine particle size
  • Uniform particle distribution
  • Low oxide content
  • High surface area
  • Free-flowing powder form

Description

Iron Metal Powder Hydrogen Reduced 100g –325 Mesh Ultra Fine is a high-purity iron (Fe) powder produced through a hydrogen reduction process, resulting in low oxide content and excellent metallic properties. With an ultra-fine –325 mesh particle size, this powder offers a large surface area and uniform particle distribution, making it suitable for a wide range of research, educational, metallurgical, and industrial applications.

The fine particle size allows for improved blending, compaction, and reaction characteristics in materials science and manufacturing processes. Hydrogen-reduced iron powder is commonly used in powder metallurgy, magnetic material development, welding and brazing research, laboratory experiments, and prototype material formulations.

Applications for Iron Metal Powder Hydrogen Reduced 100g –325 Mesh Ultra Fine

Powder Metallurgy
Initially, it is widely used for producing sintered components, compacted metal parts, and structural iron pieces where controlled density and porosity are required.

Materials Science & Research
Furthermore, it supports experimental formulation work, particle behavior studies, surface chemistry analysis, and prototype material development.

Magnetic Materials
In addition, the powder is applied in the development of ferromagnetic materials, magnetic composites, and electromagnetic research applications.

Industrial Manufacturing
Moreover, it plays a role in powder blending, process optimization, production trials, and quality control testing within manufacturing environments.

Metallurgical Applications
Similarly, it is used for alloy development, sintering experiments, heat treatment studies, and evaluation of iron-based systems.

Chemical & Catalysis Research
Consequently, it is suitable for redox reactions, catalyst development studies, and iron-based chemical process experimentation.

Additive Manufacturing (R&D)
Meanwhile, it is utilized in research focused on metal 3D printing, powder-bed fusion, and experimental fabrication techniques.

Composite Materials
Likewise, it serves as a filler in metal-polymer composites, conductive materials, and advanced coating formulations.

Education & Training
On the educational side, it is commonly used in university laboratories, engineering demonstrations, and materials science coursework.

Environmental Research
Finally, it is applied in experimental water treatment, adsorption studies, and iron-based remediation research.

Storage and Handling

Storage

  • Store in a cool, dry, and well-ventilated area.
  • Keep the container tightly sealed when not in use.
  • Protect from moisture, humidity, and water exposure to help maintain product quality.
  • Keep away from strong oxidizing agents and incompatible materials.
  • Avoid excessive heat, sparks, open flames, and other ignition sources where fine metal dust may be present.
  • Store in the original container or a suitable sealed container.

Handling

  • Use appropriate personal protective equipment (PPE), including safety glasses, gloves, and protective clothing as needed.
  • Avoid generating or inhaling dust.
  • Use with adequate ventilation or local exhaust ventilation where dust may be produced.
  • Wash hands thoroughly after handling.
  • Do not eat, drink, or smoke while handling the product.
  • Prevent accumulation of dust on surfaces and equipment.
  • Follow applicable workplace safety procedures and regulations when handling fine metal powders.

Important

  • Fine metal powders may present dust-related hazards under certain conditions. Handle carefully and use appropriate safety measures during storage, transfer, and processing.
  • Users are responsible for determining the suitability of the product for their intended application and for following all relevant safety requirements.

Additional information

Size

50 GRAM, 100 GRAMS

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