This paper presents results of the investigation of two biological role models, the shield bug (Graphosoma italicum) and the carnivorous Waterwheel plant (Aldrovanda vesiculosa). The aim was to identify biological construction and movement principles as inspiration for technical, deployable systems. The subsequent processes of abstraction and simulation of the movement and the design principles are summarized, followed by results on the mechanical investigations on various combinations of fibers and matrices with regard to taking advantage of the anisotropy of fiber-reinforced plastics (FRPs). With the results gained, it was possible to implement defined flexible bending zones in stiff composite components using one composite material, and thereby to mimic the biological role models. First small-scale demonstrators for adaptive façade shading systems – Flectofold and Flexagon – are proving the functionality.
%0 Conference Paper
%1 l2017fiberreinforced
%A Born, Larissa
%A Körner, Axel
%A Schieber, Gundula
%A Westermeier, A.S.
%A Poppinga, Simon
%A Sachse, R.
%A Bergmann, P.
%A Betz, Oliver
%A Bischoff, Manfred
%A Speck, Thomas
%A Knippers, Jan
%A Milwich, Markus
%A Gresser, Götz T.
%A Herrmann, A.
%D 2017
%K bergmann biomimetic betz born knippers adapted poppinga stiffness system 2017 itke from:petraheim architectural westermeier bio-inspired herrmann körner schieber sachse speck gresser plastic fiber-reinforced deployable hingeless milwich locally bischoff
%P 689-696
%R 10.4028/www.scientific.net/KEM.742.689
%T Fiber-reinforced plastics with locally adapted stiffness for bio-inspired hingeless, deployable architectural systems
%V 742
%X This paper presents results of the investigation of two biological role models, the shield bug (Graphosoma italicum) and the carnivorous Waterwheel plant (Aldrovanda vesiculosa). The aim was to identify biological construction and movement principles as inspiration for technical, deployable systems. The subsequent processes of abstraction and simulation of the movement and the design principles are summarized, followed by results on the mechanical investigations on various combinations of fibers and matrices with regard to taking advantage of the anisotropy of fiber-reinforced plastics (FRPs). With the results gained, it was possible to implement defined flexible bending zones in stiff composite components using one composite material, and thereby to mimic the biological role models. First small-scale demonstrators for adaptive façade shading systems – Flectofold and Flexagon – are proving the functionality.
@inproceedings{l2017fiberreinforced,
abstract = {This paper presents results of the investigation of two biological role models, the shield bug (Graphosoma italicum) and the carnivorous Waterwheel plant (Aldrovanda vesiculosa). The aim was to identify biological construction and movement principles as inspiration for technical, deployable systems. The subsequent processes of abstraction and simulation of the movement and the design principles are summarized, followed by results on the mechanical investigations on various combinations of fibers and matrices with regard to taking advantage of the anisotropy of fiber-reinforced plastics (FRPs). With the results gained, it was possible to implement defined flexible bending zones in stiff composite components using one composite material, and thereby to mimic the biological role models. First small-scale demonstrators for adaptive façade shading systems – Flectofold and Flexagon – are proving the functionality.},
added-at = {2020-05-22T14:23:01.000+0200},
author = {Born, Larissa and Körner, Axel and Schieber, Gundula and Westermeier, A.S. and Poppinga, Simon and Sachse, R. and Bergmann, P. and Betz, Oliver and Bischoff, Manfred and Speck, Thomas and Knippers, Jan and Milwich, Markus and Gresser, Götz T. and Herrmann, A.},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2ffd2f3fe157b9f85462067782d257130/itke},
doi = {10.4028/www.scientific.net/KEM.742.689},
eventtitle = {21st Symposium on Composites; Bremen},
interhash = {52646a564772c266fb3493a5323c0f46},
intrahash = {ffd2f3fe157b9f85462067782d257130},
keywords = {bergmann biomimetic betz born knippers adapted poppinga stiffness system 2017 itke from:petraheim architectural westermeier bio-inspired herrmann körner schieber sachse speck gresser plastic fiber-reinforced deployable hingeless milwich locally bischoff},
language = {eng},
pages = {689-696},
timestamp = {2020-05-22T12:23:01.000+0200},
title = {Fiber-reinforced plastics with locally adapted stiffness for bio-inspired hingeless, deployable architectural systems
},
volume = 742,
year = 2017
}