| Density | 2.8 (g/㎤) |
| Hardness | 46~83 (HRB) |
| Tensile strength | 201 (MPa) |
| Ultimate tensile strength | 190~320 (MPa) |
| Yield strength | 75~280 (MPa) |
| Elongation at break | 2~22 (%) |
| Modulus of elasticity | 68~71 (GPa) |
| Maximum service temperature | 190 (℃) |
| Thermal Expansion Coefficient | 23.8~25.7 X 10^(-6) (C^(-1)) |
| Thermal conductivity | 138~140 (W/(m⋅℃)) |
| Electrical resistivity | 4.99 (μΩ*㎝) |
| Magnetism | Non-magnetic |
| Anodizing compatibility | Suitable |
| Density | 2.8 (g/㎤) |
| Hardness | 46~83 (HRB) |
| Tensile strength | 201 (MPa) |
| Ultimate tensile strength | 190~320 (MPa) |
| Yield strength | 75~280 (MPa) |
| Elongation at break | 2~22 (%) |
| Modulus of elasticity | 68~71 (GPa) |
| Maximum service temperature | 190 (℃) |
| Thermal Expansion Coefficient | 23.8~25.7 X 10^(-6) (C^(-1)) |
| Thermal conductivity | 138~140 (W/(m⋅℃)) |
| Electrical resistivity | 4.99 (μΩ*㎝) |
| Magnetism | Non-magnetic |
| Anodizing compatibility | Suitable |
| Density | 2.8 (g/㎤) |
| Hardness | 46~83 (HRB) |
| Tensile strength | 201 (MPa) |
| Ultimate tensile strength | 190~320 (MPa) |
| Yield strength | 75~280 (MPa) |
| Elongation at break | 2~22 (%) |
| Modulus of elasticity | 68~71 (GPa) |
| Maximum service temperature | 190 (℃) |
| Thermal Expansion Coefficient | 23.8~25.7 X 10^(-6) (C^(-1)) |
| Thermal conductivity | 138~140 (W/(m⋅℃)) |
| Electrical resistivity | 4.99 (μΩ*㎝) |
| Magnetism | Non-magnetic |
| Anodizing compatibility | Suitable |
| Density | 2.8 (g/㎤) |
| Hardness | 46~83 (HRB) |
| Tensile strength | 201 (MPa) |
| Ultimate tensile strength | 190~320 (MPa) |
| Yield strength | 75~280 (MPa) |
| Elongation at break | 2~22 (%) |
| Modulus of elasticity | 68~71 (GPa) |
| Maximum service temperature | 190 (℃) |
| Thermal Expansion Coefficient | 23.8~25.7 X 10^(-6) (C^(-1)) |
| Thermal conductivity | 138~140 (W/(m⋅℃)) |
| Electrical resistivity | 4.99 (μΩ*㎝) |
| Magnetism | Non-magnetic |
| Anodizing compatibility | Suitable |