Hostname: page-component-78c5997874-xbtfd Total loading time: 0 Render date: 2024-11-15T04:17:42.422Z Has data issue: false hasContentIssue false

Market Drivers for Materials and Process Development in the 21st Century

Published online by Cambridge University Press:  31 January 2011

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Materials Challenges for the Next Century
Copyright
Copyright © Materials Research Society 2001

References

1.Keeney, R.L. and Raiffa, H., Decisions With Multiple Objectives: Preferences and Value Tradeoffs (John Wiley & Sons, New York, 1976).Google Scholar
2.Field, F.R. and Neufville, R. de, “Materials Selection—Maximizing Overall Utility,” Metals Mater. 4 (6) (1988).Google Scholar
3.Roth, R., Field, F., and Clark, J., “Materials Selection and Multi-Attribute Utility Analysis,” J. Comput.-Aided Mater. Design 1 (3); ESCOM Science Publishers, Leiden, The Netherlands; October, 1994, p. 325.CrossRefGoogle Scholar
4.Kirchain, R. and Field, F., “Process-Based Cost-Modeling: Understanding the Economics of Technical Decisions,” in Encyclopedia of Materials Science and Engineering (Elsevier, Oxford) (in press).Google Scholar
5.Clark, J.P., Roth, R., and Field, F.R., “Techno-economic Issues in Material Science”, ASM Handbook Vol. 20, Materials Selection and Design, (ASM International, Materials Park, OH, 1997).Google Scholar
6.Busch, J.V. and Field, F.R. III, “Technical Cost Modeling,” Chapter 24 of the Blow Molding Handbook, Rosato, D. and Rosato, D., eds.; (Hansr Publishers, New York, 1988).Google Scholar
7.Ashby, M.F., Evans, A.G., Fleck, N.A., Gibson, L.J., Hutchinson, J.W., and Wadley, H.N.G., Metal Foams: A Design Guide (Butterworth-Heinemann, Woburn, MA, 2000).Google Scholar
8.Maine, E. and Ashby, M.F., “Cost and Viability,” Adv. Eng. Mater. 2 (4) (2000) p. 205.3.0.CO;2-J>CrossRefGoogle Scholar
9. For example, see Horgan, J., The End of Science (Abacus Books, Little, Brown Co., London, UK, 1996).Google Scholar
10. For example, see Meadows, D.H., Meadows, D.L., Randers, J., and Behrens, W.W., (1972) The Limits to Growth—1st Report of the Club of Rome (Universe Books, New York, 1972).Google Scholar
11. For example, see Weizsäcker, E. von, Lovins, A.B., and Lovins, L.H., Factor Four, (Earthscan Publications, London, 1997).Google Scholar
12.Schmidt-Bleek, F., How Much Environment Does the Human Being Need-Factor 10—The Measure for an Ecological Economy (Deutscher Taschenbuchverlag, Munich, 1997).Google Scholar
13.SETAC, A Technical Framework for Life-Cycle Assessment,” (Society of Environmental Toxicology and Chemistry, Washington, DC, 1991).Google Scholar
14.Hotelling, H., “The Economics of Exhaustible Resources,” J. Polit. Econ. 39 (1931), p. 137.CrossRefGoogle Scholar
15.Solow, R., “The Economics of Resources or the Resources of Economics,” Am. Econ. Rev. 2 (64) (1974), p. 1.Google Scholar
16.Hong, M.F., “Implications of Regulation and Policy on Economics of Vehicle Recycling,” unpublished SM thesis, Massachusetts Institute of Technology, 2000.Google Scholar
17.Newell, S.A., “Strategic Evaluation of Environmental Metrics: Making Use of Life Cycle Analysis,” unpublished PhD thesis, Massachusetts Institute of Technology, 1998.Google Scholar
18.Billington, D.P., The Tower and the Bridge, New Art of Structural Engineering (Princeton University Press, Princeton, 1985).Google Scholar
19.Faste, R.A., “The Role of Aesthetics in Engineering,” Japan. Soc. of Mech. Eng. J., 28 (1995), p. 385.Google Scholar
20.Pye, D., The Nature and Aesthetics of Design (Cambium Press, Connecticut, 1997).Google Scholar
21.Jordan, P.W., Designing Pleasurable Products (Taylor & Francis, London, 2000).CrossRefGoogle Scholar
22. For example, see Flurscheim, C.H., ed., Industrial Design in Engineering (The Design Council, London, 1983).CrossRefGoogle Scholar