Robust lightweight design and digital twins considering manufacturing quality variation and sustainability requirements

Författare

  • Petteri Kokkonen VTT Technical Research Centre of Finland
  • Björn Hemming National metrology institute VTT MIKES
  • Eeva Mikkola VTT Technical Research Centre of Finland
  • Linus Teir National metrology institute VTT MIKES
  • Ville Lämsä VTT Technical Research Centre of Finland
  • Jukka Junttila VTT Technical Research Centre of Finland

Nyckelord:

digital twin, quality, metrology, optimization, uncertainty quantification, reliability, robust design, fatigue, sustainability

Abstract

In this paper, robustness optimization of a fatigue-critical welded structure with measured misalignments and a generic robust design procedure are presented. The motivation for considering uncertainties, robustness and multi-criteria decision making in engineering design comes from the increasing sustainability requirements. Lightweight design of vehicles can reduce CO2 emissions and increase energy and material efficiency, but often the fatigue of welds limits the weight reduction. The manufacturing quality affects the fatigue strength of welds, and by quantifying the manufacturing quality and using robust design methodology the increasing sustainability requirements can be met, while also considering the technical and economical constraints. The surrogate model representing the relationship between the actual, measured geometry and the fatigue life can be used as the digital twin during operation.

Sektion
Suomen mekaniikkapäivien 2022 erikoisnumero

Publicerad

2022-12-23

Referera så här

Kokkonen, P., Hemming, B., Mikkola, E., Teir, L., Lämsä, V., & Junttila, J. (2022). Robust lightweight design and digital twins considering manufacturing quality variation and sustainability requirements. Rakenteiden mekaniikka, 55(3), 66–80. https://doi.org/10.23998/rm.120693