CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

id acadia16_270
authors Korner, Axel; Mader, Anja; Saffarian, Saman; Knippers, Jan
year 2016
title Bio-Inspired Kinetic Curved-Line Folding for Architectural Applications
source ACADIA // 2016: POSTHUMAN FRONTIERS: Data, Designers, and Cognitive Machines [Proceedings of the 36th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-692-77095-5] Ann Arbor 27-29 October, 2016, pp.270-279
summary This paper discusses the development of a bio-inspired compliant mechanism for architectural applications and explains the methodology of investigating movements found in nature. This includes the investigation of biological compliant mechanisms, abstraction, and technical applications using computational tools such as finite element analysis (FEA). To demonstrate the possibilities for building envelopes of complex geometries, procedures are presented to translate and alter the disclosed principles to be applicable to complex architectural geometries. The development of the kinetic façade shading device flectofold, based on the biological role-model Aldrovanda vesiculosa, is used to demonstrate the process. The following paper shows results of FEA simulations of kinetic curved-line folding mechanisms with pneumatic actuation and provides information about the relationship between varying geometric properties (e.g. curved-line fold radii) and multiple performance metrics, such as required actuation force and structural stability.
keywords composite forming process, form-finding, biomimetics and biological design, embedded responsiveness
series ACADIA
type paper
email a.koerner@itke.uni-stuttgart.de
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100%; open Chandra, Suryansh, Axel Körner, Antiopi Koronaki, Rachelle Spiteri, Radhika Amin, Samidha Kowli, and Michael Weinstock (2015) Find in CUMINCAD Computing Curved-Folded Tessellations through Straight-Folding Approximation , Symposium on Simulation for Architecture & Urban Design (SimAUD) 2015. edited by H. Samuelson, S. Bhooshan, and R. Goldstein. Washington: SIMAUD. 221–228
100%; open Fiorito, Francesco, Michele Sauchelli, Diego Arroyo, Marco Pesenti, Marco Imperadori, Gabriele Masera, and Gianluca Ranzi (2016) Find in CUMINCAD Shape morphing solar shadings: A review , Renewable and Sustainable Energy Reviews 55. 863–884.
100%; open Ham, Ronald van, Thomas G. Sugar, Bram Vanderborght, Kevin W. Hollander, and Dirk Lefeber (2009) Find in CUMINCAD Compliant actuator designs , Robotics & Automation Magazine, IEEE 16 (3): 81–94
100%; open Howell, Larry L., Spencer P. Magleby and Brian M Olsen (2013) Find in CUMINCAD Handbook of compliant mechanisms , Chichester, West Sussex, United Kingdom: John Wiley & Sons
100%; open Loonen, Roel C. G. M., Marija Trèka, Daniel Cóstola and Jan Hensen (2013) Find in CUMINCAD Climate adaptive building shells: State-of-the-art and future challenges , Renewable and Sustainable Energy Reviews 25. 483–493
100%; open Mitani, Jun, and T Iagarshi (2011) Find in CUMINCAD Interactive design of Planar Curved Folding by Reflection , Pacific conference on computer graphics and applications. Edited by B. Chen, J. Kautz, T. Lee, and M.C. Lin. Kaohsiung: 77–81.
100%; open Polygerinos, Panagiotis, Zheng Wang, Johannes T. B. Overvelde, Kevin C. Galloway,, Robert J. Wood, Katia Bertoldi, and Conor J. Walsh (2015) Find in CUMINCAD Modeling of Soft Fiber-Reinforced Bending Actuators , IEEE Transactions on Robotics 31 (3). 778–789
100%; open Poppinga, Simon, Axel Körner, Renate Sachse, Larissa Born, Anna Westermeier, Jan Knippers, Mandred Bischoff, Götz Greser, and Thomas Speck (2016) Find in CUMINCAD Compliant Mechanisms in Plants and Architecture , Biomimetic Research for Architecture and Building Construction: Biological Design and Integrative Structures, edited by J. Knippers, K. Nickel and T. Speck. Dordrecht: Springer Science + Business Media B.V. (accepted)
100%; open Schleicher, Simon, Julian Lienhard, Simon Poppinga, Thomas Speck, and Jan Knippers (2015) Find in CUMINCAD A methodology for transferring principles of plant movements to elastic systems in architecture , Computer-Aided Design 60. 105–117
100%; open Schleicher, Simon (2016) Find in CUMINCAD Bio-inspired Compliant Mechanisms for Architectural Design. Transferring Bending and Folding Principles of Plant Leaves to Flexible Kinetic Structures. , Dissertation thesis. Stuttgart: ITKE (Forschungsberichte aus dem Institut für Tragkonstruktionen und Konstruktives Entwerfen, Universität Stuttgart, 40)
100%; open Schumacher, Michael, Oliver Schaeffer, Michael-Marcus Vogt (2010) Find in CUMINCAD Move - Architecture in Motion - Dynamic components and elements , Basel, Switzerland: Birkhäuser
100%; open Tachi, Tomohiro (2009) Find in CUMINCAD Simulation of rigid origami , Origami 4: the fourth international conference on origami in science, mathematics, and education. edited by R. Lang and AK Peters. Natick: 175–187
100%; open Vergauwen, Aline, Niels De Temmerman, Lars De Laet (2014) Find in CUMINCAD Digital modelling of deployable structures based on curved-line folding , Proceedings of the IASS-SLTE 2014 Symposium “Shells, Membranes and Spatial Structures: Footprints”. edited by Brasil, R. & Pauletti, R. Brasilia.
100%; open Wang, Jialiang, Liliana O. Beltrán, and Jonghoon Kim (2012) Find in CUMINCAD From Static to Kinetic: A Review of Acclimated Kinetic Building Envelopes , Proceedings for American Solar Energy Society, vol. 2012. 1–8

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