Print Email Facebook Twitter Structural optimization for materially informed design to robotic production processes Title Structural optimization for materially informed design to robotic production processes Author Bier, H.H. Mostafavi, S. Faculty Architecture and The Built Environment Date 2015-09-03 Abstract Hyperbody’s materially informed Design-to-Robotic-Production (D2RP) processes for additive and subtractive manufacturing aim to achieve performative porosity in architecture at various scales. An extended series of D2RP experiments aiming to produce prototypes at 1:1 scale wherein design materiality has been approached from both digital and physical perspectives were recently implemented. At digital materiality level, a customized computational design framework for compression only structures has been developed, which was directly linked to the robotic production setup. This has enabled the systematic study of physical materiality, which cannot be fully simulated in the digital medium. The established feedback loop ensured not only the development of an understanding for material properties in relation to their simulated and real behaviours but also allowed to robotically additively deposit and/or subtractively remove material in order to create informed material architectures at 1:1 scale. Subject Materially Informed DesignRobotic ProductionTopological OptimizationMaterial Behavior To reference this document use: http://resolver.tudelft.nl/uuid:c72b19d1-8d45-4c3b-a8af-238bca2ccb98 Publisher Science Publications ISSN 1941-7020 Source American Journal of Engineering and Applied Sciences 8(4), 549-555. (2015) Part of collection Institutional Repository Document type journal article Rights (c) 2015Bier, H.H.Mostafavi, S.(CC-BY 3.0 license) Files PDF 327097.pdf 674.08 KB Close viewer /islandora/object/uuid:c72b19d1-8d45-4c3b-a8af-238bca2ccb98/datastream/OBJ/view