Abstract
Environmental issues have become an imperative for most modern companies. They are under pressure on making the product development process compliant with recent green directives. Product structure is recognized as a critical factor for reducing environmental impact in product end-of-life. However, most previous studies failed to leverage the latitude at the design stage due to the assumption of a fixed product structure. We propose a CAD-supported tool that allows automatic variation of 3D product structure by combination of parts, selection of assembly method, and re-arranging the assembly sequence. A GA-based optimization scheme is developed to produce a better product structure corresponding to lower assembly/disassembly costs, while fulfilling with given recycling and recovering constraints. The results implemented in a commercial CAD system demonstrate the practicality of this work in computer-aided green product design.
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References
Chao, P.Y., Chen, T.T.: Analysis of assembly through product configuration. Computers in Industry 44, 189–203 (2001)
Das, S.K., Yedlarajiah, P., Narendra, R.: An approach for estimating the end-of-life product disassembly effort and cost. International Journal of Production Research 38(3), 657–673 (2000)
DeJong, K.A., Spears, W.M.: An Analysis of the Interacting Roles of Population Size and Crossover in Genetic Algorithms. In: Schwefel, H.-P., Männer, R. (eds.) PPSN 1990. LNCS, vol. 496, pp. 38–47. Springer, Heidelberg (1991)
Feldmann, K., Trautner, S., Lohrmann, H., Melzer, K.: Computer-based product structure analysis for technical goods regarding optimal end-of-life strategies. Proceedings of the Institution of Mechanical Engineers Part B - Journal of Engineering Manufacture 215(5), 683–693 (2001)
Feldmann, K., Meedt, O., Trautner, S., Scheller, H., Hoffman, W.: The Green Design Advisor: A tool for design for environment. Journal of Electronics Manufacturing 9(1), 17–28 (1999)
Gungor, A., Gupta, S.M.: Disassembly sequence plan generation using a branch-and-bound algorithm. International Journal of Production Research 39(3), 481–509 (2001)
Holland, W.V., Bronsvoort, F.: Assembly features in modeling and planning. Robotics and CIM 16(4), 277–294 (2000)
Kuo, T.C., Zhang, H.C., Huang, S.H.: Disassembly analysis for electromechanical products: a graph-based heuristic approach. International Journal of Production Research 38(5), 993–1007 (2000)
Kuo, T.C.: Disassembly sequence and cost analysis for electromechanical products. Robotics and Computer-Integrated Manufacturing 16(1), 43–54 (2000)
Lee, K., Gossard, D.C.: A hierarchical data structure for representation assemblies: part1. Computer-Aided Design 17(1), 15–19 (1985)
Moore, K.E., Gungor, A., Gupta, S.M.: Petri net approach to disassembly process planning for products with complex AND/OR precedence relationships. European Journal of Operational Research 135(2), 428–449 (2001)
Smith, S.F.: Using multiple genetic operators to reduce premature convergence in genetic assembly planning. Computers in Industry 54 (2004)
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Chu, CH., Luh, YP. (2010). Computer-Aided Green Product Design Based on Product Structure Variation. In: Huang, G.Q., Mak, K.L., Maropoulos, P.G. (eds) Proceedings of the 6th CIRP-Sponsored International Conference on Digital Enterprise Technology. Advances in Intelligent and Soft Computing, vol 66. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-10430-5_10
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DOI: https://doi.org/10.1007/978-3-642-10430-5_10
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-10429-9
Online ISBN: 978-3-642-10430-5
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