Technical Specifications:
- Material Composition:
- Alloy Type: Commercially Pure Titanium (CPTi).
- Grade: Typically Grades 1 to 4, depending on specific purity and mechanical properties required.
- Purity: >99% Titanium with trace elements (e.g., oxygen, nitrogen, iron) as per CPTi specifications.
- Particle Characteristics:
- Shape: Spherical, ensuring excellent flowability and uniform packing.
- Size Range: 15–35 µm (microns), optimized for precision additive manufacturing and fine-detail applications.
- Thermal Properties:
- Melting Point: ~1,660°C.
- Thermal Stability: Retains structural and mechanical properties at elevated temperatures.
- Mechanical Properties:
- Excellent corrosion resistance and biocompatibility.
- Moderate tensile strength with good ductility.
- Density: ~4.51 g/cm³.
Applications:
- Additive Manufacturing (3D Printing):
- Purpose: Ultra-fine particle size ensures precision and excellent surface finishes in 3D printing.
- Application: Used in powder bed fusion (PBF), selective laser melting (SLM), and electron beam melting (EBM) for creating intricate and lightweight components.
- Medical Applications:
- Purpose: Biocompatibility and corrosion resistance make CPTi suitable for medical devices and implants.
- Application: Utilized in orthopedic implants, dental prosthetics, surgical instruments, and other biomedical devices.
- Aerospace Industry:
- Purpose: Combines lightweight properties with high corrosion resistance for aerospace components.
- Application: Used in structural parts, airframes, and high-performance aerospace components.
- Marine Applications:
- Purpose: Excellent corrosion resistance ensures durability in marine and subsea environments.
- Application: Applied in propellers, subsea equipment, and offshore structural components.
- Automotive Industry:
- Purpose: High strength-to-weight ratio improves vehicle efficiency and performance.
- Application: Used in high-performance automotive parts, such as turbochargers and exhaust systems.
- Chemical Processing:
- Purpose: Superior corrosion resistance makes it suitable for handling aggressive chemicals.
- Application: Used in heat exchangers, reactors, and piping systems in chemical plants.
- Energy Sector:
- Purpose: Thermal stability and corrosion resistance make it ideal for power generation applications.
- Application: Utilized in turbines, heat exchangers, and nuclear power systems.
- High-Performance Coatings:
- Purpose: Provides wear resistance and corrosion protection for tools and machinery.
- Application: Applied in thermal spray coatings for industrial and aerospace applications.
Key Benefits:
- Ultra-Fine Particle Size: Optimized for precision manufacturing and smooth surface finishes in additive manufacturing.
- Biocompatibility: Safe for medical applications, including implants and prosthetics.
- Corrosion Resistance: Performs exceptionally well in harsh marine, chemical, and high-temperature environments.
- Lightweight and Durable: Excellent strength-to-weight ratio for aerospace, automotive, and industrial uses.
- Spherical Shape: Ensures superior flowability, packing density, and consistent performance in manufacturing processes.
Titanium Alloy Micron Powders (CPTi) are an advanced material for 3D printing, aerospace, medical, automotive, and energy applications, offering exceptional biocompatibility, corrosion resistance, and lightweight properties for cutting-edge technological innovations.