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A Multi-functional Introductory Materials Science Course: Emphasizing Engineering and Achieving Accreditation Objectives

Published online by Cambridge University Press:  11 February 2011

Katherine C. Chen ,
Linda S. Vanasupa  and
Timothy T. Orling
Katherine C. Chen
Affiliation:
Materials Engineering Department, California Polytechnic State University, San Luis Obispo, CA 93407, kcchen@calpoly.edu
Linda S. Vanasupa
Affiliation:
Materials Engineering Department, California Polytechnic State University, San Luis Obispo, CA 93407, kcchen@calpoly.edu
Timothy T. Orling
Affiliation:
Materials Engineering Department, California Polytechnic State University, San Luis Obispo, CA 93407, kcchen@calpoly.edu
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Abstract

In efforts to serve more engineering students and to achieve accreditation objectives, we have redesigned our introductory materials course to be more engineering-oriented and relevant to other disciplines. The fundamental materials science concepts have been regrouped into five, 2-week sections that emphasize applications: Materials Basics; Mechanical Strength; Thermo-mechanical Treatments; Electrical Properties; and Economic, Environmental and Societal Issues. Although the topics that are covered are similar to those in most introductory materials science courses, the presentation of the topics has been re-arranged to create clearer links between materials science and materials engineering. We have also identified accreditation criteria within each section and have built in mechanisms for providing feedback for accreditation processes. In addition, learning objectives for each section ensure standardization among different sections and instructors. Results on students' performances are reported.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 760: Symposium JJ – The Undergraduate Curriculum in Materials Science and Engineering (MSE) , 2002 , JJ6.4
Copyright
Copyright © Materials Research Society 2003

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References

REFERENCES

1. Materials Science and Engineering in the 1990's: Maintaining Competitiveness in the Age of Materials, National Research Council, Washington D.C. (1991).Google Scholar
2. McMahon, C.J. Jr, Graham, C.D. Jr, Engineering Materials: Introduction to Engineering Materials: The Bicycle and the Walkman, (Merion Books, Philadelphia, PA, 1992).Google Scholar
3. Kalonji, G. “A Novel Introductory Materials Science Course and the Challenges It Poses for Long-Term Institutionalization,” 1992 Frontiers in Education Conference, (Nashville, TN, Nov. 11–14, 1992) pp. 719723.Google Scholar
4. Yalisove, S., Clark, D., Srolovitz, D., Gibala, R., Mansfield, J., Jones, W., Yee, A., “Development of a Dynamic Textbook For Use In Class,” Proc. 1998 ASEE Conference (Seattle, Washington, 1998) CD-ROM.Google Scholar
5. http://matesrv.ceng.calpoly.edu/kcchen/public_html/MATE210/210index.html Google Scholar
6. Bloom, B.S., Taxonomy of educational objectives: The classification of educational goals: Handbook I, cognitive domain. New York; Toronto: Longmans, Green (1956).Google Scholar
7. http://www.abet.org/ Google Scholar