Topologieoptimierung mit transversal isotropem Materialmodell - Produktent-wickler auf der Suche nach optimaler Geometrie für Faser-Kunststoff-Ver-bunde
DFX 2017: Proceedings of the 28th Symposium Design for X, 4-5 October 2017, Bamburg, Germany
Year: 2017
Editor: Dieter Krause, Kristin Paetzold, Sandro Wartzack
Author: Harald, Völkl; Michael, Franz; Sandro, Wartzack
Series: DfX
Institution: FAU Erlangen-Nürnberg
Section: Lightweight Design
Page(s): 203-214
ISBN: 978-3-946094-20-3-17
Abstract
Fiber-reinforced plastics bear a huge potential for lightweight design, espe-cially due to their high strength-to-weight ratio and anisotropic behavior. Within topology optimization, due to the high number of dependent variables, specific solutions for transversely isotropic materials rarely exist – and existing ones require considerable computational effort. Yet, to fully exploit the light-weight potential, taking anisotropy into account is indispensable. A new bionic topology optimization approach is presented to facilitate efficient and effective optimization of such materials.
Keywords: Topology Optimization, FEA, Bionics, Fiber-reinforced plastic