Abstract
As a solution for traditional design process having many drawbacks in the manufacturing process, the integration of product design-process selection-process planning is carried out in the early design phase. The technological, economic, and logistic parameters are taken into account simultaneously as well as manufacturing constraints being integrated into the product design. As a consequence, the most feasible alternative with regard to the product’s detailed design is extracted, satisfying the product’s functional requirements. Subsequently, a couple of conceptual process plans are proposed relied on manufacturing processes being preliminarily selected in the conceptual design phase. Virtual manufacturing is employed under CAM software to simulate fabrication process of the potential process plans. Ultimately, the most suitable process plan for fabricating the part is recommended based upon a multi-criteria analysis as a resolution for decision-making.
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References
Sohlenius G (1992) Concurrent engineering. Ann CIRP 41:645–655
Boothroyd G, Dewhurst P, Knight W (1994) Product design for manufacture and assembly. Marcel Dekker, ISBN 0-8247-9176-2
Brissaud D, Paris H (1999) Co-operation in design: indicators as supports for the discussion between product and process engineers. In: Kals H, Van Houten F (eds) Integration of process knowledge into design support systems, pp 181–188, Kluwer academic publishers, ISBN 0-7923-5655-1
El Maraghy HA (1993) Evolution and future perspectives of CAPP. Ann CIRP 42(2):739–752
Eversheim W, Schulten I (1999) Optimal degree of parallelism and integration in design and process planning. In: Kals H, Van Houten F (eds) Integration of process knowledge into design support systems, Kluwer academic publishers, ISBN 0-7923-5655-1
Thibault A, Siadat A, Sadeghi M, Bigot R, Martin P (2009) Knowledge formalization for product-process integration applied to forging domain. Int J Adv Manuf Technol 44:1116–1132, Springer Verlag
Langlois L, Croué JB, Delamezière A, Martin P, Zimmer S (2012) Reconception de produit en intégrant les contraintes et les potentialités d’un procédé innovant : le FSW, 13e colloque national AIP PRIMECA, 28–30 March. Le Mont-Dore, France
Feng SC, Song EY (2003) A manufacturing process information model for design and process planning integration. J Manuf Syst 22:1
Ashby MF, Michael F (2004) Materials selection in mechanical design, Butterworth-Heinemann publishers, Oxford ISBN: 9780750643573 (0750643579)
Villeneuve F, Barrabes M (1993) Object Data Base, AI and CAD-CAM : Application to the process ascending generation (PAG) concept, computers in design, manufacturing and production, 7th Annual European Computer Conference (IEEE), Compeuro 93, France, pp 320–329
Martin P, Dantan J-Y, Siadat A (2007) Cost estimation and conceptual process planning, digital enterprise technology, Springer Information Systems, ISBN 978-0-387-49863-8, 243–250
H’Mida F, Martin P, Vernadat F (2006) Cost estimation in mechanical production: the cost entity approach applied to integrated product engineering. Int J Prod Econ 103:17–35
Hassan A, Siadat A, Dantan J-Y, Martin P (2010) Conceptual process planning – an improvement approach using QFD, FMEA, and ABC methods. Robot Comput Integr Manuf 26:392–401
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Nguyen, V.D., Martin, P. Product design-process selection-process planning integration based on modeling and simulation. Int J Adv Manuf Technol 77, 187–201 (2015). https://doi.org/10.1007/s00170-014-6446-7
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DOI: https://doi.org/10.1007/s00170-014-6446-7