FFC Cambridge Process Of Manufacturing the Metal Form of Titanium

There are various chemical processes utilized in the production of titanium metal. One of the methods is the FFC Cambridge Process, which was developed by Cambridge University researchers. The method, which is electrolytic, entails the direct reduction of rutile or other titanium oxides into titanium metal. Powdered titanium oxide is structured as pellets and used as a cathode. The pellets are immersed into a very hot calcium chloride bath and linked to a conductor, which is a metal rode. Carbon anodes are used to complete the cells. When voltage is applied titanium results from the oxide’s reduction. Each oxide ion moves towards the anode and is oxidized into an oxide of carbon (Oak Ridge National Laboratory, Heavy Vehicle Propulsion Materials Program & EHK Technologies, 2003).

Why titanium is a good choice of material for golf clubs

Titanium is a highly preferred as a golf club material since it as rather elastic, strong, and light, hence allowing for high putter performance. It allows for the increment of the clubs’ overall sizes without increasing their overall weight considerably. When a titanium golf club is not in use, it should be stored in locations that are devoid of high temperatures. When a titanium golf club is being fabricated, titanium, which is finely divided, is produced. The titanium presents a marked risk for explosion, as well as fire, since it gives off sparks that are quite hot at about 3000 degrees Celsius. At that temperature, the titanium reacts quite violently with nitrogen as well as oxygen.

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