MFD: Material-based Design Informed by Digital Fabrication
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Publicado:
ago 10, 2016
Palabras clave:
Informed Computational Processes
Digital Tectonics
Digital Materiality
Performance Based Design
Generative Design
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Dossier translations
Contenido principal del artículo
Resumen
Recent development of digital fabrication and materialization technologies is enhancing change within design processes. In this work we formulate a new conceptual schema termed Material-Fabrication-Design (MFD). MFD’s are defined as computational informing processes that enhance tectonic relationships between form, structure, and material within the logic of fabrication technologies. By undertaking systematic approach, MFD models are identified representing knowledge of innovative digital materialbased design. The work explores, formulates and explains the impact of these developments on theories, knowledge and processes of design. We demonstrate through comparative analysis of various selected representatives of precedents and case studies, emerging design models, principles, processes and techniques.
Detalles del artículo
Oxman, R. (2016). MFD: Material-based Design Informed by Digital Fabrication. Materia Arquitectura, (13), 105–109. https://doi.org/10.56255/ma.v0i13.55
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Citas
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KOLAREVIC, B., & MALKAWI, A. (2005). Performative architecture: Beyond instrumentality. London, England: Routledge.
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MENGES, A. (2012). Material Computation: Higher Integration in Morphogenetic Design. Architectural Design, 82(2), 14-21.
MORI, T. (2002). Immaterial/Ultramaterial. Cambridge, MA, USA: Harvard Graduate School of Design.
OXMAN, N. (2010). Structuring materiality: Design fabrication of heterogeneous materials. In R. Oxman, & R. Oxman (Eds.), The New Structuralism: Design, Engineering and Architectural Technologies. Architectural Design Special Issue 80(4) (pp. 78-85). London, England: John Wiley & Sons.
OXMAN, N. (2011). Variable property rapid prototyping. Virtual and Physical Prototyping, 6(1), 3-31.
OXMAN, N., ORITZ, C., GRAMAZIO, F., & KOHLER, M. (2015). Material Ecology. Computer-Aided Design, 60, 1-2.
OXMAN, R. (2006). Theory and design in the first digital age. Design Studies, 27(3), 229-265.
OXMAN, R. (2012). Informed tectonics in material-based design. Design Studies, 33(5), 427-455.
OXMAN, R., & OXMAN, R. (Eds.) (2010). The new structuralism: Design, engineering and architectural technologies. Architectural Design Special Issue 80(4). London, England: John Wiley & Sons.
OXMAN, R., & OXMAN, R. (Eds.) (2014). Theories of the digital in architecture. London, England: Routledge.
SASS, L., & OXMAN, R. (2006). Materializing design: the implications of rapid prototyping in digital design. Design Studies, 27(3), 325-355.
SCHEURER, F. (2010). Materialising complexity. In R. Oxman & R. Oxman (Eds.), The New Structuralism: Design, Engineering and Architectural Technologies. Architectural Design Special Issue 80(4) (pp. 86-93). London, England: John Wiley & Sons.
SCHODEK, D., BECHTHOLD, M., GRIGGS, K., KAO, K. M., & STEINBURG, M. (2004). Digital design and manufacturing: CAD-CAM applications in architecture and design. Hoboken, NJ, USA: John Wiley and Sons.
SHEIL, B., & GLYNN, R. (2011). Fabricate: making digital architecture. Toronto, Canada: Riverside Architectural Press.
SHRÖPFER, T. (2011). Material design: Informing architecture by materiality. Bern, Switzerland: Birkhäuser.
ANDERSON, C. (2012). Makers: the New Industrial Revolution. New York, NY, USA: Crown Business.
BARKOW, F. (2010). Fabricating design: a revolution of choice. In R. Oxman, & R. Oxman (Eds.), The New Structuralism: Design, Engineering and Architectural Technologies. Architectural Design Special Issue 80(4) (pp. 94-101). London, England: John Wiley & Sons.
BEORKREM, C. (2013). Material Strategies in Digital Fabrication. London, England: Routledge.
CARPO, M. (2013). The digital turn in architecture 1992-2012. London, England: John Wiley & Sons.
DUNN, N. (2012). Digital fabrication in architecture. London, England: Laurence King.
GERSHENFELD, N. (2007). Fab: The coming revolution on your desktop-from personal computers to personal fabrication. New York, NY, USA: Basic Books.
GRAMAZIO, F., & KOHLER, M. (2008). Digital materiality in architecture. Baden, Switzerland: Lars Müller.
GRAMAZIO, F., KOHLER, M., & OESTERLE, S. (2010). Encoding material. In R. Oxman, & R. Oxman (Eds.), The New Structuralism: Design, Engineering and Architectural Technologies. Architectural Design Special Issue 80(4) (pp. 108-115). London, England: John Wiley & Sons.
GRAMAZIO, F., KOHLER, M., LANGENBERG, S., & ETHZÜRICH. (2014). Fabricate: negotiating design & making. Zürich, Switzerland: Gta Verlag.
IWAMOTO, L. (2009). Digital fabrication: Architectural and material techniques. New York, NY, USA: Princeton Architectural Press.
KIERAN, S., & TIMBERLAKE, J. (2004). Refabricating architecture: How manufacturing methodologies are poised to transform building construction. New York, NY, USA: McGraw-Hill.
KOLAREVIC, B., & KLINGER, K. (2008). Manufacturing Material Effects: Rethinking design and making in Architecture. London, England: Routledge.
KOLAREVIC, B., & MALKAWI, A. (2005). Performative architecture: Beyond instrumentality. London, England: Routledge.
MAYER, J. (2011). Metropol-Parasol. Ostfildern, Germany: Hatje Cantz.
MENGES, A. (2012). Material Computation: Higher Integration in Morphogenetic Design. Architectural Design, 82(2), 14-21.
MORI, T. (2002). Immaterial/Ultramaterial. Cambridge, MA, USA: Harvard Graduate School of Design.
OXMAN, N. (2010). Structuring materiality: Design fabrication of heterogeneous materials. In R. Oxman, & R. Oxman (Eds.), The New Structuralism: Design, Engineering and Architectural Technologies. Architectural Design Special Issue 80(4) (pp. 78-85). London, England: John Wiley & Sons.
OXMAN, N. (2011). Variable property rapid prototyping. Virtual and Physical Prototyping, 6(1), 3-31.
OXMAN, N., ORITZ, C., GRAMAZIO, F., & KOHLER, M. (2015). Material Ecology. Computer-Aided Design, 60, 1-2.
OXMAN, R. (2006). Theory and design in the first digital age. Design Studies, 27(3), 229-265.
OXMAN, R. (2012). Informed tectonics in material-based design. Design Studies, 33(5), 427-455.
OXMAN, R., & OXMAN, R. (Eds.) (2010). The new structuralism: Design, engineering and architectural technologies. Architectural Design Special Issue 80(4). London, England: John Wiley & Sons.
OXMAN, R., & OXMAN, R. (Eds.) (2014). Theories of the digital in architecture. London, England: Routledge.
SASS, L., & OXMAN, R. (2006). Materializing design: the implications of rapid prototyping in digital design. Design Studies, 27(3), 325-355.
SCHEURER, F. (2010). Materialising complexity. In R. Oxman & R. Oxman (Eds.), The New Structuralism: Design, Engineering and Architectural Technologies. Architectural Design Special Issue 80(4) (pp. 86-93). London, England: John Wiley & Sons.
SCHODEK, D., BECHTHOLD, M., GRIGGS, K., KAO, K. M., & STEINBURG, M. (2004). Digital design and manufacturing: CAD-CAM applications in architecture and design. Hoboken, NJ, USA: John Wiley and Sons.
SHEIL, B., & GLYNN, R. (2011). Fabricate: making digital architecture. Toronto, Canada: Riverside Architectural Press.
SHRÖPFER, T. (2011). Material design: Informing architecture by materiality. Bern, Switzerland: Birkhäuser.
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- Rivka Oxman, MFD: Diseño material informado por fabricación digital , Materia Arquitectura: Núm. 13 (2016): Materia Arquitectura 13 (Agosto/August 2016)