Li J, Horber D, Grauberger P, Götz S, Wartzack S, Matthiesen S (2024)
Publication Language: English
Publication Status: In review
Publication Type: Unpublished / Preprint
Future Publication Type: Journal article
Publication year: 2024
Publisher: Karlsruher Institut für Technologie (KIT)
Series: KIT Scientific Working Paper; 246
City/Town: Karlsruhe
Early robust design can lead to significant cost savings in the later stages of product development. In order to design systems that are insensitive to various sources of deviation in the early stages, specific design knowledge (SDK) plays a crucial role. Different design situations result in higher or lower levels of derivable SDK, which leads to different activities to achieve the development goal. Until now, no method has been developed to consider the
different levels of derivable SDK from various design situations for early robustness evaluation. To address the problem, this paper outlines an adaptive modeling method using the Embodiment Function Relation and Tolerance (EFRT) model. The method is developed in two contrasting design situations, each with a high and low level of derivable SDK, and evaluated
in another two corresponding case studies. It has a consistent structure with five stages and gates. At each stage, the derivable SDK is taken into account and the individual modeling steps are adapted. This method provides design engineers with concrete support for early robustness evaluation of a product concept in different development scenarios.
APA:
Li, J., Horber, D., Grauberger, P., Götz, S., Wartzack, S., & Matthiesen, S. (2024). Supporting early robust design for different levels of specific design knowledge – An adaptive method for modeling with the Embodiment Function Relation and Tolerancing model. (Unpublished, In review).
MLA:
Li, Jiahang, et al. Supporting early robust design for different levels of specific design knowledge – An adaptive method for modeling with the Embodiment Function Relation and Tolerancing model. Unpublished, In review. 2024.
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