Fine Iron Powder  Acid Soluble

Fine Iron Powder is a high-quality, acid-soluble powder ideal for facilitating quick chemical reactions. Its versatility makes it an excellent choice for various applications, including the production of hydrogen gas, wood stains, Iron Sulfate (Ferrous Sulfate), and other iron-based chemicals. The powder exhibits exceptional solubility in diluted sulfuric acid, diluted hydrochloric acid, and diluted acetic acid (Vinegar), ensuring efficient reactions and desired outcomes.

Key Features:

• Facilitates quick chemical reactions
• Enables hydrogen gas production
• Ideal for wood stains
• Suitable for iron-based chemical production
• Highly soluble in diluted acids

Product Specifications:

Similar Products:

• Iron Filings for Chemical Reactions
• Iron Powder for Metallurgical Applications
• Fine Metal Powders for Industrial Use
• Iron Sulfate for Water Treatment
• Iron-Based Catalysts for Chemical Synthesis

Caution: If cautions, hazards, or warnings don't exist, this section will be hidden.

Iron Powder, High Purity, Hydrogen Reduced

High-purity, hydrogen-reduced, highly reactive, fine iron powder with a high surface area. Suitable for chemical reactions, magnetism experiments, and making magnetic paints. All particles are 150 microns or smaller.

Product Specifications

Applications and Benefits:

• Chemical reactions
• Magnetism experiments
• Making magnetic paints

Additional Information:

For further details, visit the following resources:

• IronPowders.com
• Iron-Powder.com
• Iron-Powders.com

Iron Powder, Micronized, Light

Micronized low-density iron powder is by far the finest grade of iron powder that has ever been made. It consists of irregular and flake particles as small as 5 microns. This product is an electronic grade high purity iron dust; however, very fine particles tend to oxidize easier. In most cases about 2 to 3 percent of this product is oxidized on the surface during the grinding and packaging process.

Product Specifications

Applications and Benefits:

• Chemical reactions
• Filler metals for plastic or epoxy compounds
• Mirror backing
• High-density P/M parts
• Carrier for photocopy toners
• Matrix metal for diamond bonding
• Ferromagnetic applications
• Fingerprinting powders
• Magnetic inks and paints

Caution:

Fine iron dust in air can form an explosive mixture. Avoid dust. Avoid inhalation. Use a mask and protective clothing while handling.

Metal Electrodes, Set Of 6

This set of 6 metal electrodes is ideal for use in electrovoltaic cells or various chemistry and physics experiments. Each electrode is made from different metals, including iron, copper, zinc, aluminum, steel, and magnesium. The electrodes are carefully sized at approximately 120mm x 18mm x 0.75mm (5" x 1/2" x 1/32"), making them easy to handle and suitable for classroom or laboratory use. Their consistent dimensions and material composition ensure reliable performance during experiments. These electrodes are perfect for students, educators, or lab technicians looking to demonstrate electrochemical reactions or explore the properties of different metals in practical experiments.

The set of metal electrodes includes various metals that are commonly used in experiments involving electrovoltaic (or galvanic) cells, electrochemistry, and other physics and chemistry experiments. Here's a brief overview of how these metals might be used:

1. Iron (Fe)

• Properties: Iron is a reactive metal and can oxidize easily.
• Use: Commonly used in electrochemical reactions, such as rusting experiments, or as one electrode in electrochemical cells.

2. Copper (Cu)

• Properties: Copper is a good conductor of electricity and is relatively unreactive compared to other metals.
• Use: Frequently used as a positive electrode in electrovoltaic cells, due to its stability and conductive properties.

3. Zinc (Zn)

• Properties: Zinc is highly reactive and easily gives up electrons.
• Use: Commonly used as the negative electrode in electrochemical cells, like in a simple zinc-copper battery.

4. Aluminum (Al)

• Properties: Aluminum is a lightweight, reactive metal with a natural oxide layer that protects it.
• Use: Often used in chemical reactions to produce hydrogen or as an electrode in electrolytic cells.

5. Steel (an alloy of iron)

• Properties: Steel is more resistant to corrosion than pure iron, thanks to the presence of carbon and sometimes other elements.
• Use: Steel can be used in experiments similar to iron, but it is less prone to rusting.

6. Magnesium (Mg)

• Properties: Magnesium is a highly reactive metal, often used in pyrotechnics due to its bright flame when ignited.
• Use: Magnesium is frequently used in electrochemical cells as a very reactive metal, often as a negative electrode.

Applications:

• Electrovoltaic Cells (Galvanic Cells): You can use these metals to build simple electrovoltaic cells, where two different metals act as electrodes and a solution (electrolyte) allows ions to flow, generating electricity.
• Corrosion and Rusting Experiments: The set can be used to observe how different metals react with the environment (such as exposure to water or air).
• Electrolysis: These metals can be used in electrolysis experiments to separate chemical compounds into their elemental forms using an electrical current.

Key Features

• Set of 6 metal electrodes: iron, copper, zinc, aluminum, steel, magnesium
• Ideal for electrovoltaic cells and experiments
• Electrodes Aprox measure 127mm x 18mm x 1mm (5" x 1/2" x 1/32")
• Durable and reliable for laboratory use
• Suitable for chemistry and physics experiments
• Perfect for educators, students, and lab professionals

Product Specifications