

Spherical Fe-based Powder FeSiBCCr provides advantages in terms of uniformity, flowability, and ease of use in powder metallurgy processes, such as additive manufacturing and powder injection molding. Stanford Advanced Materials (SAM) is adept at delivering Spherical Fe-based Powder with both high purity and competitive pricing.
Related products: Spherical Fe-based Powder FeMoPCBSi, Spherical Fe-based Powder FeCSi
Spherical Fe-based Powder FeSiBCCr provides advantages in terms of uniformity, flowability, and ease of use in powder metallurgy processes, such as additive manufacturing and powder injection molding. Stanford Advanced Materials (SAM) is adept at delivering Spherical Fe-based Powder with both high purity and competitive pricing.
Related products: Spherical Fe-based Powder FeMoPCBSi, Spherical Fe-based Powder FeCSi
Spherical Fe-based Powder FeSiBCCr is a type of bulk metallic glass (BMG) alloy available in powder form. The spherical powder form of FeSiBCCr allows for convenient handling and processing in various applications. Spherical Fe-based Powder FeSiBCCr provides advantages in terms of uniformity, flowability, and ease of use in powder metallurgy processes, such as additive manufacturing and powder injection molding.
FeSiBCCr alloys exhibit a combination of desirable properties, including high strength, hardness, corrosion resistance, and magnetic properties. FeSiBCCr alloys are characterized by their non-crystalline atomic structure, which gives them unique properties compared to traditional crystalline materials.
MGs |
Fe71Si10B11C6Cr2 |
Laser power (W) |
20-120 |
Hatch spacing (μm) |
100 |
Beam size (μm) |
40 |
Powder size (μm) |
24.5 |
layer thickness (μm) |
50 |
Maximum density (%) |
94.1 |
Our Spherical Fe-based Powder FeSiBCCr is carefully handled during storage and transportation to preserve the quality of our product in its original condition.