1. Introduction
In the past 48 hours, additive manufacturing leaders like EOS and Velo3D have announced expanded partnerships with aerospace firms to scale production using titanium powder for next-gen jet engine components—highlighting the surging demand for high-performance metal powders in advanced manufacturing. This renewed focus underscores why understanding titanium powder is more relevant than ever.
Titanium powder—often referred to as ti powder—isn’t just a niche industrial material; it’s a cornerstone of modern engineering. From aerospace to medical implants and 3D printing, its unique blend of strength, lightness, and corrosion resistance makes it indispensable. But with so many variants like spherical titanium powder, HDH titanium powder, and gas atomized titanium powder, navigating the market can be overwhelming. Let’s break it all down.
2. What Is Titanium Powder?
Titanium powder is a fine particulate form of titanium metal, produced through methods like hydride-dehydride (HDH), gas atomization, or plasma rotating electrode process (PREP). It ranges from irregular HDH powders to highly spherical gas atomized titanium powder, which is preferred for titanium powder additive manufacturing due to its flowability and packing density.
Common grades include pure titanium powder (Grade 1 or 2) and titanium alloy powder like ti6al4v powder (also called ti64 powder), which contains 6% aluminum and 4% vanadium. Specialty variants include titanium nitride powder, titanium carbide powder, titanium diboride powder (TiB2 powder), and even titanium flash powder for pyrotechnics.
3. Key Types and Their Applications
Different forms serve distinct purposes:
- Pure titanium powder: Used in chemical processing and biomedical implants due to biocompatibility.
- Ti6Al4V powder: The most widely used titanium alloy powder, ideal for aerospace and medical 3D printing.
- Spherical titanium powder: Essential for consistent layer deposition in titanium powder for 3d printing.
- TiO2 powder and TiO2 nano powder: Not metallic—these are titanium dioxide compounds used in sunscreens, paints, and catalysts.
- Titanium nitride and carbide powders: Extremely hard ceramics used in cutting tools and wear-resistant coatings.
- TiH2 powder: Titanium hydride, often used as a foaming agent or precursor in powder metallurgy.
Note: Titanium dust and burnt titanium powder coat are byproducts or residues—not standard commercial products—and require careful handling due to flammability risks.
4. Titanium Powder for 3D Printing
Additive manufacturing has revolutionized how we use titanium. Titanium 3d printing powder—especially gas atomized ti6al4v powder—is in high demand for producing lightweight, complex parts in aerospace, defense, and orthopedics.
When evaluating titanium powder for 3d printing price, consider particle size distribution, oxygen content, and morphology. Spherical powders command higher premiums but deliver superior print quality. Current titanium powder for 3d printing price ranges from $300 to $800 per kg, depending on grade and supplier.
5. Pricing and Market Trends
Titanium powder price per kg varies widely. Pure titanium powder may cost $150–$400/kg, while high-spec ti6al4v powder price can exceed $600/kg. Factors influencing titanium metal powder price include purity, particle shape, production method, and order volume.
For those looking to buy titanium powder, it’s crucial to compare not just titanium powder cost but also certifications (e.g., ASTM standards) and traceability. Reputable titanium powder suppliers often provide material test reports and support for aerospace or medical compliance.
6. Related Metal Powders: Molybdenum and Tungsten
While titanium dominates lightweight applications, other refractory metal powders play critical roles:
- Molybdenum powder (moly powder): Used in high-temp furnaces and electronics. Variants include molybdenum disulfide powder (MoS2 powder), molybdenum carbide powder, and TZM powder.
- Tungsten powder (wolfram powder): Known for extreme density and melting point. Includes tungsten carbide powder, spherical tungsten powder, and tungsten disulfide powder (WS2 powder).
These are often sourced from specialized vendors like Global Tungsten & Powders Corporation. Though unrelated chemically, they’re frequently discussed alongside titanium in advanced manufacturing contexts due to overlapping use in thermal spray, sintering, and wear-resistant coatings.
7. Where to Buy and What to Watch For
When you search to buy titanium powder or titanium powder for sale, prioritize suppliers with ISO certification and experience in your target industry. Beware of misleading terms like ‘titanium coated diamond powder’—which isn’t standard titanium metal powder—or unverified ‘international titanium powder’ listings with no specs.
Always request data on oxygen content, particle size (e.g., 15–45 µm for 3D printing), and morphology. For high-volume needs, negotiate based on titanium powder price per kg, but never compromise on quality for critical applications.
8. Conclusion
Titanium powder is far more than just ground metal—it’s a high-tech enabler across aerospace, medical, and industrial sectors. Whether you need ti64 powder for jet parts, pure titanium powder for implants, or specialty ceramics like titanium diboride, understanding the nuances of form, function, and pricing is key. As additive manufacturing grows, so too will innovation in titanium powder technology—making now the perfect time to get informed.
Our Website founded on October 17, 2012, is a high-tech enterprise committed to the research and development, production, processing, sales and technical services of ceramic relative materials such as Titanium. Our products includes but not limited to Boron Carbide Ceramic Products, Boron Nitride Ceramic Products, Silicon Carbide Ceramic Products, Silicon Nitride Ceramic Products, Zirconium Dioxide Ceramic Products, etc. If you are interested, please feel free to contact us.
