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Proceedings Paper

Development of a knowledge-based system for the design of composite automotive components
Author(s): Gary P. Moynihan; J. Paul Stephens
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Paper Abstract

Composite materials are comprised of two or more constituents possessing significantly different physical properties. Due to their high strength and light weight, there is an emerging trend to utilize composites in the automotive industry. There is an inherent link between component design and the manufacturing processes necessary for fabrication. To many designers, this situation may be intimidating, since there is frequently little available understanding of composites and their processes. A direct results is high rates of product scrap and rework. Thus, there is a need to implement a systematic approach to composite material design. One such approach is quality function deployment (QFD). By translating customer requirements into design parameters, through the use of heuristics, QFD supports the improvement of product quality during the planning stages prior to actual production. The purpose of this research is to automate the use of knowledge pertaining to the design and application of composite materials within the automobile industry. This is being accomplished through the development of a prototype expert system incorporating a QFD approach. It will provide industry designers with access to knowledge of composite materials that might not be otherwise available.

Paper Details

Date Published: 9 January 1997
PDF: 5 pages
Proc. SPIE 2910, Rapid Product Development Technologies, (9 January 1997); doi: 10.1117/12.263344
Show Author Affiliations
Gary P. Moynihan, Univ. of Alabama/Tuscaloosa (United States)
J. Paul Stephens, Univ. of Alabama/Tuscaloosa (United States)


Published in SPIE Proceedings Vol. 2910:
Rapid Product Development Technologies
Pierre Boulanger, Editor(s)

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