AZ91 Magnesium Alloy Powder, Purity: 99.95%, Size: 325 mesh

Description

AZ91 Magnesium Alloy Powder – 325 Mesh, 99.95% Purity

AZ91 Magnesium Alloy Powder is a high-purity, fine-grade alloyed powder ideal for advanced deposition techniques and high surface area applications. Composed primarily of magnesium with controlled levels of aluminum and zinc, this alloy is known for its lightweight properties, good castability, and excellent strength-to-weight ratio.

The 325 mesh particle size ensures a large reactive surface area, making it especially suited for use in thin film deposition, fuel cell development, and chemical synthesis processes. With 99.95% purity, this powder offers high reliability and consistent performance in highly controlled environments.

Key Properties:

• Purity: 99.95%

• Mesh Size: 325 mesh

• Form: Micro powder / fine particles

• Alloy Type: AZ91 (Mg-Al-Zn alloy)

• Appearance: Gray metallic powder

• Surface Area: High (due to fine particle size)

Features & Benefits:

• High Purity: 99.95% purity for demanding vacuum and deposition applications.

• Fine Particle Size: 325 mesh powder ensures optimal coverage and high reactivity.

• High Surface Area: Excellent for catalytic, energy storage, and surface coating applications.

• Versatile Compatibility: Suitable for use in vacuum-based and plasma-based deposition methods.

• Low Density: Ideal for lightweight material applications in aerospace and electronics.

Applications:

• Thin Film Deposition Techniques:

  • Sputtering Targets (Pressed & Bonded):
    Used in thin-film manufacturing for semiconductors and electronics.

  • Chemical Vapor Deposition (CVD):
    Suitable for uniform layer growth on various substrates.

  • Physical Vapor Deposition (PVD):
    Excellent for producing high-purity, thin metal coatings.

  • Atomic Layer Deposition (ALD):
    Enables conformal coatings in nanotechnology and microelectronics.

  • Thermal & Electron Beam Evaporation:
    Compatible with high-vacuum systems for precise deposition processes.

  • Low-Temperature Organic Evaporation:
    Enables coating of heat-sensitive materials in organic electronics.

• Energy & Environmental Applications:

  • Fuel Cells & Hydrogen Storage:
    High surface area enhances hydrogen absorption and reactivity.

  • Solar Energy Devices:
    Utilized in surface layers and conductive backplanes for photovoltaic systems.

  • Water Treatment & Catalysis:
    Fine magnesium particles act as reductants and catalysts in environmental remediation.