%0 Book Section %1 poppinga2016compliant %A Poppinga, Simon %A Körner, Axel %A Sachse, Renate %A Born, Larissa %A Westermeier, Anna %A Hesse, Linnea %A Knippers, Jan %A Bischoff, Manfred %A Gresser, Götz T. %A Speck, Thomas %B Biomimetic Research for Architecture and Building Construction %C Cham %D 2016 %I Springer %K 2016 architecture biomimetic bionik bischoff born compliant construction from:petraheim gresser hesse itke knippers körner poppinga sachse speck structure westermeier %P 169 -193 %R 10.1007/978-3-319-46374-2_9 %T Compliant Mechanisms in Plants and Architecture. Biomimetic Research for Architecture and Building Construction. %V 8 %X Plant movements can inspire deployable systems for architectural purposes which can be regarded as ideal solutions combining resilient bio-inspired functionality with elegant natural motion. Here, we first give a concise overview of various compliant mechanisms existing in technics and in plants. Then we describe two case studies from our current joint research project among biologists, architects, construction engineers and materials scientists where the aesthetic movements of such role models from the plant kingdom are analysed, abstracted and implemented in bioinspired technical structures for sustainable architecture. Both examples are based on fast snapping movements of traps of carnivorous plants. The Waterwheel plant (Aldrovanda vesiculosa) captures prey underwater and the Venus flytrap (Dionaea muscipula) snaps in the air. We present results on the motion principles gained by quantitative biomechanical and functional-morphological analyses as well as their simulation and abstraction by using e.g. Finite Element Methods. The Aldrovanda mechanism was successfully translated into a similarly aesthetic and functional technical structure, named Flectofold, which exists in a prototype state. The Flectofold can be used as a façade shading element for complex curved surfaces as existing in modern architecture. %@ 978-3-319-46372-8

@inbook{poppinga2016compliant, abstract = {Plant movements can inspire deployable systems for architectural purposes which can be regarded as ideal solutions combining resilient bio-inspired functionality with elegant natural motion. Here, we first give a concise overview of various compliant mechanisms existing in technics and in plants. Then we describe two case studies from our current joint research project among biologists, architects, construction engineers and materials scientists where the aesthetic movements of such role models from the plant kingdom are analysed, abstracted and implemented in bioinspired technical structures for sustainable architecture. Both examples are based on fast snapping movements of traps of carnivorous plants. The Waterwheel plant (Aldrovanda vesiculosa) captures prey underwater and the Venus flytrap (Dionaea muscipula) snaps in the air. We present results on the motion principles gained by quantitative biomechanical and functional-morphological analyses as well as their simulation and abstraction by using e.g. Finite Element Methods. The Aldrovanda mechanism was successfully translated into a similarly aesthetic and functional technical structure, named Flectofold, which exists in a prototype state. The Flectofold can be used as a façade shading element for complex curved surfaces as existing in modern architecture.}, added-at = {2020-05-22T14:28:48.000+0200}, address = {Cham}, author = {Poppinga, Simon and Körner, Axel and Sachse, Renate and Born, Larissa and Westermeier, Anna and Hesse, Linnea and Knippers, Jan and Bischoff, Manfred and Gresser, Götz T. and Speck, Thomas}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/260b3a880153a4d496f782eee8bd93fd8/itke}, booktitle = {Biomimetic Research for Architecture and Building Construction}, doi = {10.1007/978-3-319-46374-2_9}, interhash = {951a0c48b3ad67532268b54f2d3a4fbb}, intrahash = {60b3a880153a4d496f782eee8bd93fd8}, isbn = {978-3-319-46372-8}, keywords = {2016 architecture biomimetic bionik bischoff born compliant construction from:petraheim gresser hesse itke knippers körner poppinga sachse speck structure westermeier}, language = {Englisch}, pages = {169 -193}, publisher = {Springer}, series = {Biologically-Inspired Systems (8)}, timestamp = {2021-07-08T15:11:51.000+0200}, title = {Compliant Mechanisms in Plants and Architecture. Biomimetic Research for Architecture and Building Construction.}, volume = 8, year = 2016 }