Study Physical Metallurgy, Physical Metallurgy Schools


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Did you know that the super alloy has already been developed? Thanks to the California Institute of Technology that successfully made a breakthrough on Liquidmetal. License is but exclusively acquired by Liquimetal Technologies that introduced this amorphous alloy into the market in 2003. In particular, this alloy is absolutely noncorrosive hence resisting development of rusts not to mention its robust components comparable to titanium and steel. As a matter of fact, it is characterized by top-of-the-line metal properties such as tensile strength, corrosion resistance, co-efficient restitution, and durability. Expertise in metal technology such as this one is integrated on physical metallurgy studies along with intermetallic compounds and alloys.

Metallurgy has been a well renowned science since 5000 BC while the Egyptians made weapons out of meteoric iron since 3000 BC. The Bronze Age back in the 3rd millennium BC was even significant for the introduction of Bronze into the civilization. Specifically, this particular alloy is a mixture of melted copper and tin. In the 12000 BC, the Iron Age came into the world courtesy of the Hitites although the Philistines were believed to have developed the ore extraction technique which brought them advancement. Indeed, development of metal expertise took many years before it was given its official scientific designation as metallurgy in the 16th century. The name was used by alchemists which means the process of extracting metals out of minerals.

Through the years, improvement in science and technology brought about the improvement of physical metallurgy as a discipline, too.

Undoubtedly, it is likewise attributed to the extravagant collection of minerals that are potent for the production of more alloys. No wonder, metallurgy has a broad scope of studies which include metallic properties alongside intermetallic compounds. In the same way, it also involves inquisition and formulation of metallic mixtures known as alloys. In turn, all these are inimical in the growth of metalwork technology which likely comprises another field of scientific inquiry.

Attributed to the expansion of metal industries, there is a growth in the demand for metallurgy specialists. In turn, educational institutions responded by offering course programs on physical metallurgy studies. These include academic programs commonly under the Material Science and Engineering department in undergraduate (Metallurgy and Material Studies, Physical Metallurgy Studies, Process Metallurgy Studies, and Material Engineering Studies) and graduate schools (Mater of Science in Metallurgical Engineering, Masters in Mining Engineering, and Master of Arts in Applied Science).

Universities offering these scholastic programs are RWTH Aachen University (Germany), University of Surrey (England), University of Tasmania (Australia), University of London (United Kingdom), University of Washington (United States), etc.

There are many different employment opportunities for Physical metallurgy specialists. In particular, the pool of experts on this material science can likely land jobs both in private and public industries. In fact, research and development teams of metal producing companies are continuously making innovations on metal properties and alloys hence the continuous search for the next super metal. Other job posts include university instructor, metallurgist engineer, laboratory manager, quality technician, metallurgical executive and material scientist.