From aerospace industry to your shower room, the applications of ceramics are clearly visible across the human life. The ceramics and its engineering has driven change in the world of technology for decades now.
Products like space shuttles tiles, artificial teeth, airframes and engines involve some serious work of ceramic engineering. Ceramic engineering also helps in creating lenses and switches in daily life.
The high purity chemical solutions are used to manufacture inorganic or non-metallic materials in the field of ceramic engineering. This is achieved by temperature variations and precipitation through subsequent chemical reactions. In a way it can be treated as a branch of chemical engineering with little bit of mechanical engineering as you are actually going to create material for machines.
Sometimes these reactions even give medicines, refining elements. Therefore ceramic engineers are welcome in aerospace, mining and even pharma. These engineers produce the parts on which almost all computers and electronics operate on the place. Some of them even help to cure a disease and some are driving global telecom revolution. Sounds very versatile and vast right?
What you will have to learn to be a Ceramic Engineer?
All over India, engineering colleges have different syllabus structure and it depends upon each University. But the basic elements of the ceramic engineering course are the same. It includes subjects such as sensor technology, ceramic processing, thermodynamics and drawing of refractory lining and joints. Apart from these practical components, colleges also teach pollution and waste management, fabrication.
The core courses are foundations for any ceramic engineer. These are applied mathematics, introduction to ceramics, solid state physics and chemistry, and geology too. Lab practical involves chemical analysis of ceramics and products, computer science, operation research and applied mathematics along with instrumentation.
Why ceramic engineering is important?
The ceramic became important material in the production of the goods because it reduces the manufacturing cost. It is latest, new and doesn’t decay easily. State of the art technologies like fibre optics started using the ceramic superconductors due to its flexibility. Some materials are doing wonders in lasers, cosmetic surgeries.
The doctors are using ceramic bones, joints and teeth for a decade now. With more research and analysis of the data, applications of the ceramics are expanding.
Ceramic engineers are in demand at many fields now. It makes the job more versatile and widens the scope for the student of ceramic engineering.
What kind of work one should expect?
The job of a ceramic engineer is basically of a material specialist. This person is expected to provide his expertise in getting proper material while designing a product. These products can be anything from NASA’s pacecraft to fiber optic cable in the nuclear research center.
The engineer is expected to find out a way through which inorganic materials can be converted into necessary ceramic compounds. These procedures will yield us glassware, nuclear fuel parts, pollution reducing devices and fiber optics.
The aspirants should enroll in B.Tech in ceramic engineering after his higher secondary board exams. The entrance tests are same as any other engineering course. Chemistry and Mathematics form the core for higher studies in this field.