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From Parametric Design to Contour Crafting Technics: A Lab for Algo+Ritmo, a Brazilian Research Group

From Parametric Design to Contour Crafting Technics: A Lab for Algo+Ritmo, a Brazilian Research Group

Corrêa, Natália de Andrade ; Alves, Gilfranco Medeiros ;

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This article presents a discussion on digital design processes. More precisely about the use of Contour Crafting (CC) as a material and technique solution for the construction which will carry less impact for the environment. It explores the connection between parametric process and the file-to-factory concept analyzing the consequences of those strategies. The paper describes and analyzes a case study starting from the demand for a headquarters project for a university research group. It presents possibilities and discusses futures developments based on the methodology used in the process.

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Palavras-chave: Digital Fabrication, Design Process, File-to-factory, Contour Crafting, Algorithm,

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DOI: 10.5151/sigradi2020-46

Referências bibliográficas
  • [1] Alexander, C. (1964). Notes on the synthesis of form. Cambridge, Massachusetts: Harvard University Press.
  • [2] Alves, Gilfranco M. (2014). Cibersemiótica e Processos de Projeto: Metodologia em Revisão. Tese de Doutorado, USP. São Carlos – SP.
  • [3] Camachoa et al. (2017). Applications of additive manufacturing in the construction industry: a prospective review. Conference: 35th International Symposium on Automation and Robotics in Construction, ISARC.
  • [4] Corrêa, Natália A. (2019). Eco-Poiesis: Desenvolvimento de um Laboratório de Pesquisa Utilizando Contour Crafting. Monografia, UFMS. Campo Grande – MS.
  • [5] Dotta, N. (2020). A percepção de consumidores de taipa de pilão. Campo Grande - MS, Brasil. Dissertação (Mestrado): Universidade Federal de Mato Grosso do Sul.
  • [6] Estevez, A. (2003). Arquitecturas Genéticas. In: ESARQ-UIC, Santa Fe (USA). Barcelona: Lumen.
  • [7] Fernandes, G.; Feitosa, L. (2015). Impact of Contour Crafting on Civil Engineering. International Journal of Engineering Research & Technology (IJERT), Vol. 4 Issue 08, p. 628-632, Ago.
  • [8] Khoshnevis, B. et al. (2006). Mega-scale fabrication by Contour Crafting. International Journal of Industrial and Systems Engineering, January,
  • [9] King, H.; Ocko, S.; Mahadevan, L. (2015). Termite mounds harness diurnal temperature oscillations for ventilation. PNAS: National Academy of Sciences.
  • [10] Kolarevic, B. (2003). Architecture in the Digital Age: Design and Manufacturing. Spon Press, New York. 2003.
  • [11] Kontovourkis, O; Tryfonos, G. (2018). Integrating Parametric Design with Robotic Additive Manufacturing for 3D Clay Printing: An Experimental Study. Conference: 35th International Symposium on Automation and Robotics in Construction, ISARC, p. irreg, Jul.
  • [12] Kotnik, T. (2006). Algorithmic Extension of Architecture. In: MAS, ETH, ARCH/CAAD. Zurich.
  • [13] Kotnik, T. (2010). Digital Architectural: Design as Exploration of Computable Functions. In: International Journal of Architectural Computing, vol. 8, nº 1.
  • [14] Leach N., Carlson, a., Khoshnevis B., et al. (2012). Robotic Construction by Contour Crafting: The Case of Lunar Construction. In: International Journal of Architectural Computing, vol. 10, n. 3, p. 423-438
  • [15] Leach, N. (2009) Digital Morphogenesis. In: Architectural Design Special Issue: Theoretical Meltdown, vol. 79, nº 1, Londres: John Wiley & Sons, p. 32-37. January.
  • [16] New Story Charity. (2020). Introducing the world’s first community of 3D printed homes. Retrieved from https://newstorycharity.org/3d-community/
  • [17] Orciuoli, A., Celani, G. (2010). 3D em Detalhes. In: Revista AU, p. 68-71, São Paulo, dezembro, 2010. Disponível em:
  • [18] . Acesso em: <24/11/18>
  • [19] Pawlyn, M. (2011). Biomimicry in Architecture. Riba Publishing. Roudavsky, S. (2012). Towards Morphogenesis in Architecture. In:
  • [20] International Journal of Architectural Computing. Issue 03, volume 07.
  • [21] Sperling, D. M. (2003). Diagrama e processo: o diagrama como processo. In: VII Congresso da Sociedade Ibero-americana de Gráfica Digital, SIGRADI: Cultura Digital y Diferenciación, p. 36-39, Rosário: Universidad Nacional de Rosario
  • [22] Stacey, M., Beesley, P., Hui, V. (2004). Digital Fabricators: Examining the Digital Practice of Architecture. In: AIA/ ACADIA Fabrication conference, Coach House Press, Toronto, Ontario.
  • [23] Tedeschi, A. (2011). Parametric Architecture with Grasshopper.
  • [24] Brienza: Le Penseur.
  • [25] Terzidis, K. (2006). Algorithmic Architecture. Burlington: Elsevier.
  • [26] Vincent, B. B.; Arribart, H., Bouligandc, Y.; Sanchez, C. (2002) Chemists and the school of nature. In: New Journal of Chemistry, vol.
  • [27] WASP. (2018). The first 3D printed House with earth | Gaia. Retrieved from https://www.3dwasp.com/en/3d-printed- house-gaia/
  • [28] Weinstock, M. (2006). Self-organisation and material constructions. In: Techniques and Technologies in Morphogenetic Design, vol 76, issue 2, p. 34-41, Londres: John Wiley & Sons.
Como citar:

Corrêa, Natália de Andrade; Alves, Gilfranco Medeiros; "From Parametric Design to Contour Crafting Technics: A Lab for Algo+Ritmo, a Brazilian Research Group", p. 334-342 . In: Congreso SIGraDi 2020. São Paulo: Blucher, 2020.
ISSN 2318-6968, DOI 10.5151/sigradi2020-46

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