Novembro 2015 vol. 2 num. 3 - XIX Congresso da Sociedade Ibero-americana de Gráfica Digital 2015

Artigo Completo - Open Access.

Idioma principal | Segundo idioma

Weaving Enclosure. Material computation and novel forms of crafting

Weaving Enclosure. Material computation and novel forms of crafting

Naboni, Roberto ; Breseghello, Luca ;

Artigo Completo:

This paper presents a computationally based methodology arising from the application of weaving techniques for the design and construction of an experimental architectural system, Weaving Enclosure. The research explores the close correspondence between material properties and assembly systems found in the traditional craft of weaving, studied through analytical and laboratory tests, and then implemented through computational design and digital fabrication. The workflow for the generation of specific geometries related to the elastic nature of the material results in the design and fabrication of a self- standing interior partition with digitally conceived patterns, tuned parametrically to provide structural and screening performance.

Artigo Completo:

This paper presents a computationally based methodology arising from the application of weaving techniques for the design and construction of an experimental architectural system, Weaving Enclosure. The research explores the close correspondence between material properties and assembly systems found in the traditional craft of weaving, studied through analytical and laboratory tests, and then implemented through computational design and digital fabrication. The workflow for the generation of specific geometries related to the elastic nature of the material results in the design and fabrication of a self- standing interior partition with digitally conceived patterns, tuned parametrically to provide structural and screening performance.

Download (PDF)

Palavras-chave: Computational Design, Digital Crafting, Digital Fabrication, Material Computation, Weaving,

Palavras-chave: Computational Design, Digital Crafting, Digital Fabrication, Material Computation, Weaving,

DOI: 10.5151/despro-sigradi2015-80264

Referências bibliográficas
  • [1] Dransfield, J., Tesoro, F. and Manokaran, N. (2000). Rattan: current research issues and prospects for conservation and sustainable development. Food and Agriculture Organization of the United States.
  • [2] Eichenseer, C., Will, C., Rampf, M., Wend, S. and Greil P. (2009). Biomorphous porous hydroxyapatite-ceramics from rattan (Calamus Rotang). Journal of Materials Science: Materials in Medicine. New York: Springer US, 21(1), 131-137.
  • [3] Griffen, C. S. (2001). Weaving as an Analogy for Architectural Design. In Paradoxes of Progress: Architecture and
  • [4] Education in a Post-utopian Era. Proceedings, 89th ACSA Annual Meeting. 478-483.
  • [5] Hensel, M., Menges, A. and Weinstock, W. (2010). Emergent Technologies and Design: Towards a Biological Paradigm for Architecture. New York: Routledge.
  • [6] Hensel, M (2013). Performance-Oriented Architecture: Rethinking Architectural Design and the Built Environment. London: John Wiley & Sons
  • [7] Menges, A. (2012). Material Resourcefulness. Activating Material Information in Computational Design. In Material computation. Higher integration in morphogenetic design, ed. Menges, A., AD, Architectural Design, London: John Wiley & Sons, 216, 36.
  • [8] Muslimin, R. (2010). Learning from Weaving for Digital Fabrication in Architecture. Leonardo, 43 (4), 340-349.
  • [9] Naboni, R. and Paoletti, I. (2015). Advanced Customization in Architectural Design and Construction. New York: Springer US
  • [10] Obilade, I.O., Olutoge, F.A. (2014). Flexural Characteristics of Rattan Cane Reinforced Concrete Beams. The International Journal Of Engineering And Science (IJES), 3 (6), 38-42.
  • [11] Otto, F. (1969). Minimal Nets. Institute for Lightweight Structures, University of Stuttgart, Stuttgart : K. Krämer.
  • [12] Oxman, N. (2007). Digital Craft: Fabrication Based Design in the Age of Digital Production. Workshop Proceedings for Ubicomp 2007: International Conference on Ubiquitous Computing. September; Innsbruck, Austria, 534-538.
  • [13] Oxman, N. (2010). Material-based design computation. Thesis (Ph. D.). Cambridge: Massachusetts Institute of Technology, Dept. of Architecture.
  • [14] Ranjan, M. P. (1985). Structure of Bamboo Baskets. A classification of forming processes, weave structures and significant details. In IL-35 Bambus – Bamboo, ed. by Gab, S.,
  • [15] Drusedau, H. & Hennike, J. Stuttgart: Institute fur Leichte Fachentragwerke, 356 - 367.
  • [16] Reiser J, Umemoto N (2006). Atlas of novel tectonics. New York: Princeton Architectural Press.
  • [17] Saunders, R. (1990). Wicker Furniture: A Guide to Restoring and Collecting. Three Rivers Press.
  • [18] Semper, G. and Mallgrave, F.H. (1989). The Four Elements of Architecture: and Other Writings. Cambridge: Cambridge University Press.
  • [19] Thomsen, M. R. and Tamke, M. (2014). Digital Crafting: Performative Thinking for Material Design. In Inside Smartgeometry: Expanding the Architectural Possibilities of Computational Design. eds. Peters, B. and Peters, T, London: John Wiley & Sons. 243-253.
  • [20] Tomlinson, P.B., Fisher, J.B., Spangler R.E. and Richer R.A. (2001). Stem Vascular Architecture in the Rattan Palm Calamus (Arecaceae-Calamoideae-Calaminae). American Journal of Botany 88(5): 797–809. Wikipedia. Basket weaving. http://en.wikipedia.org/wiki/Basket_weaving
Como citar:

Naboni, Roberto; Breseghello, Luca; "Weaving Enclosure. Material computation and novel forms of crafting", p. 384-391 . In: . São Paulo: Blucher, 2015.
ISSN 2318-6968, ISBN: 978-85-8039-136-7
DOI 10.5151/despro-sigradi2015-80264

últimos 30 dias | último ano | desde a publicação


downloads


visualizações


indexações