This paper investigates the behavior of woven prepreg plies being placed on a weakly double curved mold by a robot. It is essential that the draped configuration is free from wrinkles. The baseline is a virtual draping environment that can plan and simulate robot draping sequences. It consists of a kinematic mapping algorithm for obtaining target points for the grippers on the mold surface. A simple motion planner is used to calculate the trajectories of the grippers. Here, two conceptually different draping strategies are employed. Finally, the two generated draping sequences are simulated using a transient, non-linear finite element model and compared w.r.t. their predicted wrinkle formations. Material data are obtained by means of tension, bias-extension and cantilever tests. The numerical examples show that the virtual draping environment can aid in developing the automatic draping system but that the generation of feasible draping sequences is highly path dependent and non-trivial.
Modeling the robotic manipulation of woven carbon fiber prepreg plies onto double curved molds:a path dependent problem
2019-06-01
Krogh , C , Glud , J A & Jakobsen , J 2019 , ' Modeling the robotic manipulation of woven carbon fiber prepreg plies onto double curved molds : a path dependent problem ' , Journal of Composite Materials , vol. 53 , no. 15 , pp. 2149-2164 . https://doi.org/10.1177/0021998318822722
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
DDC: | 629 |
THIN AND LIGHT CRACK STOPPER WITH DOUBLE EXTRUSION PLIES
Europäisches Patentamt | 2021
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