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Formula: Ti
Form: Powder
Material: Titanium
CAS Number: 7440-32-6
Commodity: Metals
Purity:
99.5%
Titanium Powder is characterized by its high surface area, corrosion resistance, and low density, making it ideal for powder metallurgy, additive manufacturing, and alloy production. The fine particulate form enables precise control over composition and microstructure in sintered parts, coatings, and 3D-printed components. Aerospace, biomedical, and automotive industries use titanium powder for fabricating lightweight structural parts, producing biocompatible implants, and coating components for enhanced wear resistance. Specific uses include additive manufacturing of aerospace brackets, sintering orthopedic implants, and cold spraying corrosion-resistant layers onto steel substrates. In research, titanium powder is vital for studying sintering behavior, optimizing powder-bed fusion parameters, and developing novel titanium-based composites. Its versatility and performance make it a cornerstone material in advanced manufacturing technologies.
Tolerances
Powder
| Mean Particle Size | Nominal | |
|---|---|---|
| Minimum Particle Size | Nominal | |
| Maximum Particle Size | Nominal | |
| Maximum Particle Size | Nominal | |
| Particle Size D10 | Nominal | |
| Particle Size D50 | Nominal | |
| Particle Size D90 | Nominal |
Material Properties for Metals
Atomic Properties
| Element | Value |
|---|---|
| Atomic number | 22 |
| Crystal structure | Hexagonal close packed |
| Electronic structure | Ar 3d² 4s² |
| Valences shown | 2,3,4 |
| Atomic weight( amu ) | 47.88 |
| Thermal neutron absorption cross-section( Barns ) | 6.1 |
| Photo-electric work function( eV ) | 4.1 |
| Natural isotope distribution( Mass No./% ) | 50/ 5.3 |
| Natural isotope distribution( Mass No./% ) | 49/ 5.5 |
| Natural isotope distribution( Mass No./% ) | 46/ 8.0 |
| Natural isotope distribution( Mass No./% ) | 48/ 73.7 |
| Natural isotope distribution( Mass No./% ) | 47/ 7.5 |
| Atomic radius - Goldschmidt( nm ) | 0.147 |
| Ionisation potential( No./eV ) | 3/ 27.5 |
| Ionisation potential( No./eV ) | 4/ 43.3 |
| Ionisation potential( No./eV ) | 5/ 99.2 |
| Ionisation potential( No./eV ) | 1/ 6.82 |
| Ionisation potential( No./eV ) | 2/ 13.6 |
| Ionisation potential( No./eV ) | 6/ 119 |
Mechanical Properties
| Element | Value |
|---|---|
| Material condition | Polycrystalline |
| Material condition | Annealed |
| Poisson's ratio | 0.361 |
| Poisson's ratio | 0.361 |
| Poisson's ratio | - |
| Bulk modulus( GPa ) | 108.4 |
| Bulk modulus( GPa ) | - |
| Bulk modulus( GPa ) | 108.4 |
| Tensile modulus( GPa ) | - |
| Tensile modulus( GPa ) | 120.2 |
| Tensile modulus( GPa ) | 120.2 |
| Izod toughness( J m⁻¹ ) | 61 |
| Izod toughness( J m⁻¹ ) | 61 |
| Hardness - Vickers( kgf mm⁻² ) | 60 |
| Hardness - Vickers( kgf mm⁻² ) | 60 |
| Tensile strength( MPa ) | 230-460 |
| Tensile strength( MPa ) | 230-460 |
| Yield strength( MPa ) | 140-250 |
| Yield strength( MPa ) | 140-250 |
Electrical Properties
| Element | Value |
|---|---|
| Electrical resistivity( µOhmcm ) | 54@20@20°C |
| Superconductivity critical temperature( K ) | 0.4 |
| Temperature coefficient( K⁻¹ ) | 0.0038@0-100°C |
Physical Properties
| Element | Value |
|---|---|
| Boiling point( C ) | 3287 |
| Density( gcm⁻³ ) | 4.5@20°C |
Thermal Properties
| Element | Value |
|---|---|
| Melting point( C ) | 1660 |
| Latent heat of evaporation( J g⁻¹ ) | 8893 |
| Latent heat of fusion( J g⁻¹ ) | 365 |
| Specific heat( J K⁻¹ kg⁻¹ ) | 523@25°C |
| Thermal conductivity( W m⁻¹ K⁻¹ ) | 21.9@0-100°C |
| Coefficient of thermal expansion( x10⁻⁶ K⁻¹ ) | 8.9@0-100°C |
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