Magnesium Nitride (Mg₃N₂) Micron Powder – 99.95% Purity, 35 µm

Description

Magnesium Nitride (Mg₃N₂) Micron Powder – 99.95% Purity, 35 µm

Magnesium Nitride (Mg₃N₂) Micron Powder is a light-yellow, high-purity nitride compound valued for its thermal stability, mechanical strength, and reactivity with nitrogen and other elements. With a particle size of 35 µm and 99.95% purity, it is widely used as a raw material in advanced ceramics, specialty glass, high-performance alloys, and synthetic diamond production.

This material exhibits high hardness, high thermal conductivity, corrosion resistance, and excellent wear resistance, making it suitable for demanding industrial environments. Magnesium nitride decomposes around 800 °C, releasing nitrogen, which allows its use as a nitrogen source in specialized reactions.

Technical Properties

• Purity: 99.95%

• Average Particle Size: 35 µm

• Color: Light Yellow

• Density: 2.72 g/cm³

• Decomposition Point: ~800 °C

• Elemental Analysis (%):

  • N: 19.0

  • O: 0.2

  • Fe: 0.004

Key Features

• High-purity, fine micron powder form for versatile industrial applications

• Excellent thermal conductivity and corrosion resistance

• High hardness and wear resistance

• Stable under high-temperature conditions

• Effective nitrogen source for advanced material synthesis

Applications

Advanced Ceramics & Glass

• Used in the manufacture of special ceramic materials with superior mechanical and thermal stability

• Applied in specialty glass production to enhance durability and resistance to high temperatures

Metallurgy & Alloys

• Serves as a blowing agent and additive in high-strength steel smelting

• Enhances mechanical strength and resistance to thermal fatigue in alloys

Superhard Materials

• Raw material for the production of synthetic diamond and cubic boron nitride (c-BN), key superhard materials for cutting and grinding tools

Chemical Synthesis

• Acts as a nitrogen donor in reactions for producing other nitrides and functional high-performance compounds