Stanford Advanced Materials (SAM) provides high-quality spherical titanium powder with exceptional purity, strength, and corrosion resistance, perfect for 3D printing, aerospace, medical implants, and powder metallurgy.
Spherical titanium powder mainly refers to a kind of titanium or titanium alloy powder whose particle shape is spherical. It is mainly produced by the atomization and plasma rotating electrode processes.
Properties:
High Purity and Consistency: Ensure an excellent material performance and stability of the material in operation.
High Strength-to-Weight Ratio: Allows its application for lightweight structural components.
Corrosion Resistance: Excellent in many different environments, making it tough and not apt to erode soon.
Biocompatibility: Suitable for biomedical applications and implants.
Application:
Additive manufacturing (3D printing of metals): The process creates very detailed, lightweight, and high-performance pieces.
Aerospace: Light in weight but high in strength for parts needed in the aerospace sector.
Medical implants: The manufacturing of artificial joints and implants of bones is done.
Powder Metallurgy: These parts are stronger, resistant to corrosion, and made from titanium alloys.
Coatings and Spraying: For protection and functionality, coatings are provided to improve durability.
