Titanium
In a perfect example of a mineral's true potential not being realised until long after its discovery, Titanium went from being discovered by a Cornish amateur geologist and parish priest, William Gregor, in 1791, to being the material of choice during the jet age of the 1950s. The principle characteristics engineers then, as well as now, appreciate are its high strength with comparably lower mass, its high-temperature operating properties, its resistance to corrosion and, for specific purposes, its bio-compatibility. This means that Titanium will find itself invaluable across the whole spectrum of the engineering industry. Titanium is typically organised into four distinct groups to reflect its varying alloyed states and is organised on this 'site thusly: Commercially Pure/Unalloyed, Alpha and Near-Alpha, Alpha-Beta and Beta.
Titanium Grades
TitAnium Shapes
Integ Metals supply metals and materials directly to industry. To this end, we have listed the eight most frequently supplied to industries on this page, for the purpose of offering our solutions to each industry. Thereafter you will find the industries, explainations of what their unique demands are, and then outlines of the Pros, Cons and Uses for each of the six most requested materials and their role within the selected industry.
Titanium in Industry
Integ Metals supply metals and materials directly to industry. For this purpose, we have listed the eight most frequently supplied to industries on this page, with the purpose of offering our solutions to each industry. Thereafter, we have taken the liberty of introducing the industries, explained what their unique demands are, and then outlined the Pros, Cons and Uses for each of the most requested materials and their role within the selected industry.