Titanium Applications In Modern Times

Titanium possesses very useful attributes that make it an ideal metal for various industrial, chemical, and medical applications. It is corrosion resistant, lightweight, and has the highest strength-to-weight ratio among all the metals.

There are different kinds of titanium products available today, and titanium bars are one of them. Enumerated below are some of the most common titanium applications nowadays.

Marine 

Because titanium has high corrosion resistance, it can be submerged in sea water without the risk of losing its strength and durability. Titanium bars are used in the construction of housing components of monitoring and surveillance devices for military and scientific use. They are also utilized to make propeller shafts, heat-chillers for aquariums, fishing lines, and other materials.

titaniumbikeframe

Sports 

Titanium’s many desirable traits make it a good choice in constructing bicycle frames. Titanium bars and tubes provide the sturdiness and longevity that cyclists look for in bicycles. However, because of the high costs of extracting and fabricating titanium to produce titanium alloys, titanium bicycle frames are more expensive than the aluminum or steel ones.

Electronics 

Titanium is also used in various electronic gadgets. For example, Google Glass, a very recent Google project that is a wearable computer device that has an optical-head mounted display, uses a titanium frame. Laptop batteries also take advantage of titanium’s fast charge abilities and other electrical properties.

Medical 

Titanium is used in different surgical implants and implements because of its osseointegration ability and biocompatibility. Once implanted, it can make a connection to the living bone and not be rejected by the human body. Titanium bars are frequently used in maxiofacial and orthopedic implant applications.

Aerospace 

Various commercial and military aircrafts utilize titanium for their compressor blades, exhaust ducts, landing gears, hydraulic systems, bodies, armor plating, rotors, and other components because of titanium’s high fatigue, corrosion, and crack resistances.