SIMULATION-BASED DEVELOPMENT OF PARETO-OPTIMIZED TAILORED BLANKS FOR THE USE WITHIN SHEET-BULK METAL FORMING
DS 84: Proceedings of the DESIGN 2016 14th International Design Conference
Year: 2016
Editor: Marjanovic Dorian, Storga Mario, Pavkovic Neven, Bojcetic Nenad, Skec Stanko
Author: Küstner, C.; Beyer, F.; Kumor, D.; Loderer, A.; Wartzack, S.; Willner, K.; Blum, H.; Rademacher, A.; Hausotte, T.
Series: DESIGN
Section: DESIGN METHODS
Page(s): 291-300
Abstract
In the context of lightweight design, the so-called tailored blanks are more frequently used to improve sheet-bulk metal forming process results. In order to meet the requirements of tailored blank designs for subsequent sheet-bulk metal forming process steps, design engineers can influence many process or geometry parameters. A crucial task for design engineers is to find the optimal process and geometry parameter setting that is an optimal design with respect to multiple design requirements. A simulation-based approach to face this challenge is presented in this paper.
Keywords: pareto-optimized design, simulation study, friction law