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Ceramic Sciences

Ceramic sciences combines chemistry, physics and engineering principles. Fiber-optic devices, microprocessors and solar panels are some examples of ceramic sciences applied to everyday life. Learn about relevant educational and career options here.

Inside Ceramic Sciences

Although many people relate ceramics to pottery, ceramic sciences, commonly known as ceramic engineering, is a complex discipline with multiple high-tech applications. Inorganic, non-metallic ceramic materials are processed at extremely high temperatures and transformed into a wide variety of products. Ceramics contribute to everyday life in a number of ways as components of items that include glass light bulbs, jet engines, computers, cars and household appliances.

Education Information

According to the U.S. Bureau of Labor Statistics (BLS), to gain an entry-level job in ceramic sciences, a bachelor's degree in materials science or ceramic engineering is the minimum requirement (www.bls.gov). An undergraduate ceramic engineering program consists of courses in advanced mathematics, physical sciences, engineering and material sciences. Topics covered often include computer-aided design (CAD), microscopy, engineering principles, glass science, thermodynamics, ceramic processing and spectroscopy (the analysis of how an object's light disperses).

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