Cumincad : CUMINCAD References : Search Results

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

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	Howell, LL, Midha, A and Norton, TW (1996) Evaluation of Equivalent Spring Stiffness for Use in a Pseudo-Rigid-Body Model of Large-Deflection Compliant Mechanisms , Journal of Mechanical Design, 118(1), pp. 126-131

	Howell, LL (2001) Compliant mechanisms , Wiley, New York

	Kaminakis, N. and Stavroulakis, G. (2012) Topology optimization for compliant mechanisms using evolutionary-hybrid algorithms and application to the design of auxetic materials , Composites Part B: Engineering, 43(6), 2655–2668

	Lateº, D., Cãºvean, M., and Moica, S. (2017) Fabrication methods of compliant mechanisms , Procedia Engineering 181, pp. 221-225. Available at: https://www.sciencedirect.com/science/article/pii/S1877705817309608(Accessed10 November 2021)

	Megaro, V, Zehnder, J, Bächer, M, Coros, S, Gross, M and Thomaszewski, B (2017) A computational design tool for compliant mechanisms , ACM Transactions on Graphics, 36(4), p. 12

	Megaro, V., Zehnder, J., Bächer, M., Coros, S., Gross, M. H., and Thomaszewski, B. (2017) A computational design tool for compliant mechanisms , ACM Trans Graph., 36(4), 82-1. Available at: https://doi.org/http://dx.doi.org/10.1145/3072959.3073636 (Accessed15 November 2021)

	Poppinga, S, Correa, D, Bruchmann, B, Menges, A and Speck, T (2020) Plant Movements as Concept Generators for the Development of Biomimetic Compliant Mechanisms , Integrative and Comparative Biology, 60, pp. 886-895

	Poppinga, S, Correa, D, Bruchmann, B, Menges, A, Speck, T. (2020) Plant Movements as Concept Generators for the Development of Biomimetic Compliant Mechanisms , Integrative and Comparative Biology, 60(4), p886-895. Available at https://doi.org/10.1093/icb/icaa028 (Accessed 21 October 2021)

	Poppinga, S, Korner, A, Sachse, R, Born, L, Westermeier, A, Hesse, L, Knippers, J, Bischoff, M, Gresser, GT and Speck, T (2016) Compliant mechanisms in plants and architecture , Springer

	Poppinga, Simon, Axel Körner, Renate Sachse, Larissa Born, Anna Westermeier, Jan Knippers, Mandred Bischoff, Götz Greser, and Thomas Speck (2016) 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)

	Schikore, J, Schling, E, Bauer, AM and Oberbichler, T (2020) Kinetics and Design of Semi-Compliant Grid Mechanisms , Olivier Baverel, Helmut Pottmann, Caitlin Mueller, Tomohiro Tachi (Eds.): Advances in Architectural Geometry 2020, Paris, p. (to be published)

	Schleicher S. (2016) Bio-inspired Compliant Mechanisms for Architectural Design , PhD diss., University of Stuttgart

	Schleicher, S. (2016) Bio-inspired Compliant Mechanisms for Architectural Design: Transferring Bending and Folding Principles of Plant Leaves to Flexible Kinetic Structures , Ph.D. Thesis, ITKE

	Schleicher, Simon (2015) Bio-Inspired Compliant Mechanisms for Architectural Design: Transferring Bending and Folding Principles of Plant Leaves to Flexible Kinetic Structures , PhD Dissertation, University of Stuttgart

	Schleicher, Simon (2015) Bio-Inspired Compliant Mechanisms For Architectural Design: Transferring Bending and Folding Principles of Plant Leaves to Flexible Kinetic Structures , Ph.D. diss., University of Stuttgart

	Schleicher, Simon (2015) Bio-Inspired Compliant Mechanisms For Architectural Design: Transferring Bending and Folding Principles of Plant Leaves to Flexible Kinetic Structures , Ph.D. diss., University of Stuttgart

	Schleicher, Simon (2016) 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)

	Schleicher, Simon. (2015) Bio-inspired compliant mechanisms for architectural design: transferring bending and folding principles of plant leaves to flexible kinetic structures , Thesis diss., Institut Für Tragkonstruktionen Und Konstruktives Entwerfen. Universität Stuttgart

	Seffen, K.A. (2012) Compliant shell mechanisms , Philosophical Transactions of the Royal Society A, 370, 2010-2026

	Simon Schleicher (2016) Bio-inspired Compliant Mechanisms for Architectural Design , PhD diss., University of Stuttgart

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