Titanium Alloy Powder
The main application of 3D printing metal powder;
Aerospace
Molds
Automotive
Medical instruments
Military industry
| Product No. | Titanium Base Alloy Powder | Composition (%) | O (%) | A.D.g/cm3 | Particle Size |
| NRE-60008 | NRE-Ti6Al4V | Al5.5-6.5, V3.5-4.5, Ti Bal Ti |
0.15max | 3.8-4.8 | 0-15um, 15-45um,45-150um |
| NRE-CPTI | 0.15max | 0-15um, 15-45um,45-150um |
Titanium Alloy Powder
Applications
Aerospace and Aviation:
Turbine Components: Titanium alloys, especially Ti-6Al-4V, are used in 3D printing turbine blades, rotors, and engine parts. These parts need to withstand high temperatures, mechanical stresses, and corrosive environments at high altitudes.
Aircraft Structural Components: 3D printing with titanium alloy powder enables the production of lightweight, high-strength structural components like brackets, wing supports, and frames for aerospace applications. These components contribute to fuel efficiency and overall performance.
Exhaust Systems: Titanium alloys are used for producing exhaust components in aircraft engines, where high temperatures and pressure make the material’s thermal and mechanical properties essential.
Medical and Biomedical Applications:
Orthopedic Implants: Titanium alloys are widely used for producing hip replacements, knee implants, and other orthopedic devices. The material’s strength, biocompatibility, and ability to resist wear make it ideal for long-lasting medical implants.
Dental Implants: Titanium alloys are used in dental implants, as they are strong, resistant to corrosion, and integrate well with bone tissue, making them a standard choice for dental procedures.
Surgical Instruments: Titanium alloy powder is used to produce precision surgical instruments, such as bone screws, plates, and other tools that require high mechanical strength and corrosion resistance in medical environments.
Automotive Industry:
Performance Parts: Titanium alloys are used to manufacture high-performance automotive parts like exhaust systems, valve springs, and engine components, where high strength, lightweight, and temperature resistance are critical.
Custom Components: 3D printing allows for the creation of custom parts for automotive applications that are both lightweight and durable, improving vehicle efficiency and performance.
Motorsports: Titanium alloys are extensively used in motorsports for lightweight and durable components, including parts for racing engines, suspension systems, and exhaust systems, where reducing weight is a critical factor in improving speed and performance.
