This paper addresses the automated assessment of manufacturability of air-craft engine components in the early stages of design, focused on the welding process. It is a novel part of a multi-objective decision support tool for design evaluation, currently running at a manufacturer of jet engine components. The paper briefly describes the tool and how it impacts the product development process. Further, the paper presents an integrated method for manufacturability assessment by finding welding processes that complies with all geometrical and other constraints found in the CAD-models of the conceptual engine. Here, preferences made by manufacturing engineers serves as a base for a manufacturability index so that different parameter settings in the CAD-models can be compared to find the best parameter settings, considering the trade-off with other performance criteria’s of the engine.
CITATION STYLE
Stolt, R., André, S., Elgh, F., & Andersson, P. (2016). Manufacturability assessment in the conceptual design of aircraft engines – building knowledge and balancing trade-offs. In IFIP Advances in Information and Communication Technology (Vol. 467, pp. 407–417). Springer New York LLC. https://doi.org/10.1007/978-3-319-33111-9_38
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