DESCRIPTION
Commercially pure Titanium grades features an excellent strength-to-density ration and good corrosion resistance. This makes them suitable for the manufacture of components in weight saving structures with reduced mass forces, and also for components requiring high corrosion resistance. In addition, thermal stresses in titanium structures are lower than in other metallic materials, due to the low thermal expansion of titanium. The materials are also widely used in medical sectors because of their outstanding biocompatibility.
STANDARDS
Titan Grade 3 EN
Ti-Grade 3 ASTM
R50550 UNS
3.7055 German material #
Chemical Composition
Elemental composition requirements
Element | Composition, % |
Carbon | 0.08 max. |
Nitrogen | 0.05 max. |
Hydrogen | 0.015 max. |
Iron | 0.30 max. |
Oxygen | 0.35 max. |
Aluminum | – |
Vanadium | – |
Titanium | Balance |
Mechanical Properties
Mechanical properties are listed in below Table, at 20 deg. C .
Hardness HB 30 HB | Tensile Strength N/mm 2 | o.2% Yield Strength N/mm 2 | ELONGATION A | MODULUS of ELASTICITY kN/mm 2 |
≦ 170.00 | ≧ 450.00 | ≦ 380.00 | ≧ 18.00 | ≦ 105.00 |
APPLICATIONS
- Chemical industry
- Aerospace industry
- Medical industry
AVAILABLE FORMS
- Sheets and plates
- Bars
- Tubes and pipes
- Forged and casted parts