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Initiating New Academic Programs in Materials Science

Published online by Cambridge University Press:  29 November 2013

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Extract

Materials science has come of age. The need now exists to establish programs in education and research in materials science at colleges and universities throughout the world. It is not realistic to expect that every university will receive funds to found entirely new programs. However, the infrastructure for materials science already exists at most universities that have offered traditional studies in the natural sciences. It is the purpose of this article to provide ideas and suggestions for initiating new academic programs in materials science by using existing resources. The major prerequisite for success is a faculty and staff who are willing and able to adapt to a rapidly advancing scientific environment and who have the individual initiative to seize and profit from the many new opportunities in materials science. This article reports an experiment in progress at Bowling Green State University, Ohio which uses the strengths of the Departments of Biology, Chemistry, Geology, Physics and Technology to develop a new program in materials science. I hope it will serve as a model for other universities.

Type
Materials Education
Copyright
Copyright © Materials Research Society 1992

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References

1.Watt, I.M., The Principles and Practice of Electron Microscopy (Cambridge University Press, Cambridge, 1985).Google Scholar
2.Ruoff, A.L., Introduction to Materials Science (Krieger Publishing Co., Malabar, Florida, 1979) p. 29.Google Scholar
3.Smith, C.S., Trans. AIME 175 (1948) p. 15.Google Scholar
4.Smith, C.S., A Search for Structure (MIT Press, Cambridge, Massachusetts, 1981).Google Scholar
5.Hirsch, P., Howie, A., Nicholson, R., Pashley, D.W., and Whelan, M.J., Electron Microscopy of Thin Crystals (Krieger Publishing Co., Malabar, Florida, reprint 1977).Google Scholar
6.Bethge, H., Krohn, M., and Stenzel, H., in Electron Microscopy in Solid State Physics, edited by Bethge, H. and Heydenreich, J. (Elsevier, Amsterdam, 1987) p. 202.Google Scholar
7.Kehl, G.L., The Principles of Metallographic Laboratory Practice (McGraw-Hill, New York, 1943).Google Scholar
8.Dash, W.C., Phys. Rev. Lett. 1 (1958) p. 400; J. Appl. Phys. 30 (1959) p. 459.CrossRefGoogle Scholar
9.Brewster, D., Optics (Longman, Rees, Orme, Brown, Green & Taylor, London, 1831) p. 232.Google Scholar
10.Smith, W.F., Principles of Materials Science and Engineering, 2nd ed. (McGraw-Hill, New York, 1990).Google Scholar