Since the introduction of Titanium alloys in the
early 1950s, these materials have in a relatively short time backbone materials for
the aerospace, energy, and chemical industries. The combination of high
strength-to-weight ratio, excellent mechanical properties, and corrosion resistance
makes titanium the best material choice for many critical applications. Today,
titanium alloys are used for demanding applications such as static and rotating gas
turbine engine components. Some of the most critical and highly-stressed civilian
& military airframe parts are made of these alloys. The most widely used
titanium alloy is the Ti6AI-4V, which has limited section size harden ability, is
most commonly used in the annealed condition.
Titanium alloy is the Ti6AI-4V, which has limited section size harden
ability, is most commonly used in the annealed condition.
|
Following are the available grades in Titanium |
| Gr.1 |
Gr.5 |
Gr.10 |
| Gr.2 |
Gr.7 |
Gr.11 |
| Gr.3 |
Gr.8 |
Gr.12 |
| Gr.4 |
Gr.9 |
Gr.23 |
Forms & Shapes:
Wire, sheet, plate, strip, round bars, hexagonal, flats, square,
angle, channel, blanks, tubes, billets, pipes, pipe fittings, forging rings, special
shape forgings, fasteners etc.
Specifications of Titanium:
| AMS 4900 |
AMS 4928 |
AMS 4978 |
| AMS 4901 |
AMS 4930 |
AMS 4979 |
| AMS 4902 |
AMS 4936 |
ASTM-B-265 |
| AMS 4907 |
AMS 4941 |
ASTM-B-337 |
| AMS 4909 |
AMS 4942 |
ASTM-B-348 |
| AMS 4910 |
AMS 4965 |
ASTM-B-381 |
| AMS 4911 |
AMS 4966 |
MIL |
| AMS 4918 |
AMS 4967 |
|
| AMS 4924 |
AMS 4971 |
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