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Laboratory Activities Used in a Sophomore Materials Science Course at Texas A&M University

Published online by Cambridge University Press:  01 February 2011

R. B. Griffin
Affiliation:
Department of Mechanical Engineering, Texas A&M University, College Station, TX 77843
A.L. Epps
Affiliation:
Department of Civil Engineering, Texas A&M University, College Station, TX 77843
K. T. Hartwig
Affiliation:
Department of Mechanical Engineering, Texas A&M University, College Station, TX 77843
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Abstract

A sophomore materials science course has been developed at Texas A&M University as part of a larger five course sequence through the support of the National Science Foundation. Texas A&M University is a member of the NSF sponsored Foundation Coalition. The courses were developed to include active and collaborative learning, application of technology, and integration as important components. Currently, a majority of departments within the College of Engineering (COE) at Texas A&M University have adopted the five-course sequence. During fall 99, the COE is teaching the materials course to 260 students or four sections of 70 students each.

As part of the development of the materials class, a series of experiments have been developed for use within the classroom. The experiments give the students an opportunity to experience hands-on activities. Several of the activities are done within the classroom, while others are performed in a separate laboratory building. The classes consist of two- 1 h 50 min. periods, and this time provides the opportunity to have the laboratory activities in class. The experiments encourage the development of teams and support various applications of materials science. The majority of students have very limited laboratory experience, and this course provides them an opportunity to develop some laboratory skills. Currently, we do seven experiments: 4-point bending, tensile test: metals and polymers, heat treatment, thermal conductivity, viscosity demonstration, and electrical components. In the paper and during the presentation, we will demonstrate several of the experiments and provide examples of student work. A detailed description of each experiment will be included in the paper.

Type
Research Article
Copyright
Copyright © Materials Research Society 2000

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References

REFERENCES

1 Malave, C., ”Teaming in the Integrated Curriculum of the Foundation Coalition at Texas A&M,” ASEE National Conference, Washington, D.C., June 1996.Google Scholar
2 Adams, S., Watson, K., and Malave, C., “Foundation Coalition at Texas A&M University: Utilizing TQM and OD to manage Change,” Proceedings Frontiers in Education, salt Lake city, Utah, Nov. 1996.Google Scholar
3 Griffin, R. B., Everett, L., and Lagoudas, D., “Development of a Sophomore Year Engineering Program at Texas A&M University,” FIE, Pittsburgh, PA, Nov. 1997.Google Scholar
4 Griffin, R. B., Everett, L. J., Keating, P., Lagoudas, D., Tebeaux, E., Parker, D., Bassichis, W. and Barrow, D., “Planning the Texas A&M University College of Engineering Sophomore Year Integrated Curriculum,” Fourth World Conference on Engineering Education, Oct. 95, St Paul, MN, vol. 1 pp. 228232.Google Scholar
5 Glover, C., “Conservation Principles and the Structure of Engineering,” McGraw-Hill, New York, NY, 1996.Google Scholar
6 Griffin, R. B., Cornwell, L. R., Yapura, C., Krishnan, S., and Hallford, J., “Use of a Four-Point Bend Apparatus to Determine the Modulus of Elasticity,” National Educators Workshop Update 98, Brookhaven, NY, 1–4 November, 1998.Google Scholar
7 Cornwell, L.R., Griffin, R.B., and Massarweh, W., “Effect of Strain Rate on Tensile Properties of Plastics,” National Educators: Workshop: Update 90, Standard Experiments in Engineering Materials, Materials Science and Technology, NIST, Nov. 90, pp. 279289.Google Scholar
8 Griffin, R. B., Terrill, L., “Measurement of Viscosity: Classroom Demonstration,” National Educators Workshop, Update 99: Standard Experiments in Engineering Materials, Science, and Technology, Auburn Hills, MI, Oct./Nov. 1999.Google Scholar
9 Yapura, , Richard, C. L. Griffin, R. B., Lagoudas, D. L., “Mechanics of Materials Experiments Via the Internet,” National Instruments Week, Austin, TX, Aug. 1999.Google Scholar
10 Griffin, R. B., Ragupathi, P., Johnson, E., “Development of a Thermal Conductivity Experiment for Use in Class,” ASEE, Seattle, WA, 1998.Google Scholar
11 Handbook of Chemistry and Physics, 69th ed., CRC Press, Boca Raton, FL, 19881989.Google Scholar
12 Callister, W. D. Jr, Materials Science and Engineering an Introduction, 5th ed., John Wiley and Sons, 2000.Google Scholar