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Views on a Comprehensive Materials Science and Engineering Education Program
Published online by Cambridge University Press: 29 November 2013
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Educational programs in materials science and engineering (MSE) departments must be comprehensive, addressing the main theme of structure-property-processing-application relationships in all materials. In addition, the programs must be dynamic in order to improve materials according to the requirements of our society. Dynamic materials limits and societal needs require the materials field to change constantly over relatively short times. In this respect, education in MSE differs substantially from that in traditional departments such as chemistry, physics, mechanical and chemical engineering, and even the more narrow fields of metallurgical, ceramics and polymer engineering.
It may be argued that all departments, scientific or engineering, are dynamic because they are constantly changing and maturing. Obviously, though, departments close to maturity change less rapidly than young departments. MSE, a young department, is changing rapidly from both steady evolutionary growth as well as quantum changes in scope (e.g., electronic materials). In fact, advances in MSE have necessitated a redefinition of scope for other fields. A good example is the field of computers and communication, which is directly tied to the growth, processing, and characterization of high purity semiconductor materials. The opposite is true as well (e.g., high transition temperature superconducting materials). The old adage of “a good design will be limited by the materials available” is true. As such, MSE plays a dual role—simultaneously advancing and impeding progress in other areas of science and engineering.
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- Materials Education
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- Copyright © Materials Research Society 1987