This image shows Sebastian Hügle

Sebastian Hügle


Research Associate
Institute of Aircraft Design


+49 711 685 60466
+49 711 685 62449

Pfaffenwaldring 31
70569 Stuttgart
Room: 5.538


  • Process simulation
  • Coreless Filament Winding
  1. 2022

    1. Hügle, S.; Genc, E.; Dittmann, J.; u. a. „Offline Robot-Path-Planning and Process Simulation for the Structural Analysis of Coreless Wound Fibre-Polymer Composite Structures“. In: Key Engineering Materials. (Key Engineering Materials), 926 , S. 1445--1453, doi: 10.4028/p-970esd.
    2. Wolf, M.; Kaiser, B.; Hügle, S.; u. a. „Data Model for Adaptive Robotic Construction in Architecture“. In: Procedia CIRP. Elsevier BV (Procedia CIRP), S. 1035–1040, doi: 10.1016/j.procir.2022.05.104.
    3. Pérez, M. G.; Zechmeister, C.; Kannenberg, F.; u. a. „Computational co-design framework for coreless wound fibre–polymer composite structures“. In: Journal of Computational Design and Engineering. Oxford University Press (OUP) (Journal of Computational Design and Engineering), 9 (2), S. 310--329, doi: 10.1093/jcde/qwab081.
  2. 2017

    1. Dittmann, J.; Hügle, S.; Seif, P.; u. a. „Permeability Prediction Using Porous Yarns in a Dual-Scale Simulation with Openfoam“. In: ICCM21 - 21st International Conference on Composite Materials. Xi’an, China (ICCM21 - 21st International Conference on Composite Materials).
  3. 2016

    1. Dittmann, J.; Hügle, S.; Middendorf, P. „Numerical 3D Permeability Prediction Using Computational Fluid Dynamics Techniques“. In: FPCM - 13th Internation Conference on Flow Processes in Composite Materials. Kyoto, Japan (FPCM - 13th Internation Conference on Flow Processes in Composite Materials).

Composite Design and Manufacturing Seminar

2011-2019 Studium der Luft- und Raumfahrttechnik an der Universität Stuttgart
seit 2019 Wissenschaftlicher Mitarbeiter am IFB
To the top of the page