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

PDF papers
id acadia15_57
authors Sina, Ata; Pitt, Shannon; Meyboom, Annalisa; Olson, James; Martinez, Mark
year 2015
title Thermocatalytic Metafolds
source ACADIA 2105: Computational Ecologies: Design in the Anthropocene [Proceedings of the 35th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-692-53726-8] Cincinnati 19-25 October, 2015), pp. 57-67
summary Thermocatalytic Metafolds comprises a paper-based fabrication process that initiates ascetic self-assembly via heat application. Metafolds utilizes a composite material of paper with a selectively applied shape-changing polymer crafted via a multi-step computational, two-dimensional drafting fabrication method. Upon heat application, the paper self-folds into predetermined, three-dimensional, highly accurate, rigid shapes. The final product maintains a notable resilience to alteration, and the stringency of form serves as a testament to the processí potential to transform the ways in which design is undertaken. This exploration of material properties has cumulated in a process that demonstrates a design based on a detailed understanding of how the composite material behaves under specific conditions.
keywords Self-assembly, folding, composite, fabrication
series ACADIA
type normal paper
full text file.pdf ( bytes)
references Content-type: text/plain
Details Citation Select
100%; open Allensworth, J.R. (2014) Find in CUMINCAD In-plane Deformation of Shape Memory Polymer Sheets Programmed Using Only Scissors , Polymer 55(23): 5948-5952. Accessed November 15, 2014.

100%; open Cromvik C. (2007) Find in CUMINCAD Numerical Folding of Airbags Based on Optimization and Origami , Chalmers and Go?teborg: Chalmers University of Technology and Go?teborg University

100%; open Demaine, E. and P. ORourke (2009) Find in CUMINCAD Geometric Folding Algorithms , Cambridge: Cambridge University Press

100%; open Dietz, H., S. M. Douglas, W. M Shih (2009) Find in CUMINCAD Folding DNA into Twisted and Curved Nanoscale Shape , Science 325: 725-730

100%; open Elsayed, E. A. and B. Basily (2004) Find in CUMINCAD A Continuous Folding Process for Sheet Materials , Int. J. of Materials and Product Technology 21(1/2/3): 217-238

100%; open Guest, S. D., S. Pellegrino (1999) Find in CUMINCAD The Folding Triangulated Cylinders: Geometric Considerations , Journal of Applied Mechanics ASME E 61: 778-783

100%; open Hawkes, E. B. An, N. M. Benbernou, H. Tanaka, S. Kim, E. D. Demaine, D. Rus, and R. J. Wood (2010) Find in CUMINCAD Programmable Matter by Folding , Proceedings of the National Academy of Sciences 107(28): 12441-12445. DOI:10.1073/pnas.0914069107

100%; open Hayes, Gerard J. (2014) Find in CUMINCAD Self-folding Origami Microstrip Antennas , IEEE Transactions on Antennas and Propagation 62(10): 5416-5419

100%; open Jahedi, M. (2010) Find in CUMINCAD Folding in Architecture: A Spatial, Structural and Material Investigation , Vancouver: University of British Colombia

100%; open Krieg, O. D. and A. Menges (2013) Find in CUMINCAD Potentials of Robotic Fabrication in Wood Construction: Elastically Bent Timber Sheets with Robotically Fabricated Finger Joints , ACADIA 2013: Adaptive Architecture. Riverside Architectural Press/ABC Art Books Canada

100%; open Kuribayashi, K., K. Tsuchiya, Z. You, D. Tomus, M, Mumemoto, T. Ito, M. Sasaki (2006) Find in CUMINCAD Self-deployable Origami Stent Grafts as a Biomedical Application of Ni-rich TiNi Shape Memory Alloy Foil , Materials Science and Engineering A: 131-136

100%; open Kuribayashi-Shigetomi K., H. Onoe, S. Takeuchi (2012) Find in CUMINCAD Self-Folding Cell Origami: Batch Process of Self- Folding 3D Cell-Laden Microstructures Actuated by Cell Traction Force , Japan: University of Tokyo

100%; open Lang, R. J. (2006) Find in CUMINCAD Algorithmic Architecture , Oxford: Architectural Press

100%; open Liu, Y. (2014) Find in CUMINCAD Three-dimensional folding of pre-strained polmer sheets via absorption of laser light , Journal of Applied Physics 115(20): 204911

100%; open Miura, K. (1993) Find in CUMINCAD Concepts of Deployable Space Structures , International Journal of Space Structures 8: 3-16

100%; open Nojima, T., K. Saito (2006) Find in CUMINCAD Development of Newly Designed Ultra-Light Core Structures , JSME Int. J. Series A 49(1): 38-42

100%; open Nojima, T. (2002) Find in CUMINCAD Modeling of Folding Patterns in Flat Membranes and Cylinders by Origami , JSME Int. J. Series C 45(1): 364-370

100%; open Nojima, T. (2003) Find in CUMINCAD Modeling of Compact Folding/Wrapping of Flat Circular Membranes , JSME Int. J. Series.C 46(4): 1547-1553

100%; open Nojima, T. (2004) Find in CUMINCAD Origami Structures , Handbook of Kouzou Kougaku (Structural Engineering), ed. M. Yagawa (In Japanese). Maruzen

100%; open Rothemund, P. W. K. (2006) Find in CUMINCAD Folding DNA to Create Nanoscale Shapes and Patterns , Nature 440: 297-302

last changed 2016/08/05 11:37
pick and add to favorite papersHOMELOGIN (you are user _anon_161143 from group guest) CUMINCAD Papers Powered by SciX Open Publishing Services 1.002