In its raw, original state, titanium comes across as a shiny and hard, but strong metal. Furthermore, it is refined and blended into numerous alloys for numerous industrial applications, with the 6al 4v titanium being one such example. Titanium, on its own or as part of an alloy, has many uses in industries today. Titanium is much stronger than steel, but never as dense. Its material characteristics make it perfectly suited as an alloying agent with numerous metals.
These metals would include aluminum, iron and molybdenum. You will find such alloys being used within the military industrial complex, in which case the building of aircraft, spacecraft and missile components would feature quite prominently. These alloys are preferred because of its low density. They are also able to withstand the extremes of both high and low temperatures. On other industrial scales, such alloys can be found being applied to golf clubs, crutches, bicycles and, significantly in today’s times perhaps, laptop computers.
Power plant condensers are using titanium pipes owing to their strong capabilities to resist corrosion. Titanium is also able to resist corrosion typically experienced in seawater. This makes the metal perfectly suited to desalination plants and the hulls of ships and submarines, along with all other structures that would be exposed to seawater. Because titanium is able to connect well with human bone, it is being used in surgical applications.
Examples of such applications would include tooth implants and joint replacements, particularly hip replacements. Mass use of titanium oxide can be found as pigments in all kinds of paints, enamels, paper and plastics. The pigment is bright white in color and features an excellent covering power. It is also able to reflect infrared radiation and can be used in areas where heat causes poor visibility.