As Antoine Picon describes in Architecture and the Virtual Towards a new Materiality? : "An architectural project is indeed a virtual object. It is all the more virtual that it anticipates not a single built realization but an entire range of them. …Whereas the architect used to manipulate static forms, he can now play with geometric flows. Surface and volumes topological deformations acquire a kind of evidence that traditional means of representation did not allow.”
For several years, the construction sector has been facing a labour shortage, generating a growing interest in automation. The health crisis has only exacerbated the trend, prompting automation companies to turn their focus from car manufacturing to the construction industry, for which automation is expected to grow up to 30% within the next few years. The following explores present capabilities and future possibilities of automation within the construction process, its integration within the mainstream practice and the impact on design.
Award-winning architecture firm Bjarke Ingels Group has collaborated with lower-impact battery metals developer The Metals Company to reimagine a traditional metal production facility in a new contemporary and sustainable context. The firm designed a circular zero-solid-waste metallurgical plant that includes manufacturing, processing, and storage facilities, along with offices, visitor centers, and innovation facilities.
Neri Oxman and MIT have developed programmable water-based biocomposites for digital design and fabrication. Named Aguahoja, the project has exhibited both a pavilion and a series of artifacts constructed from molecular components found in tree branches, insect exoskeletons, and our own bones. It uses natural ecosystems as inspiration for a material production process that produces no waste. “Derived from organic matter, printed by a robot, and shaped by water, this work points toward a future where the grown and the made unite.”
Update: We've added a video of the process to the article!
This year's Architectural Association (AA) Summer DLAB program culminated in Weave.X, the final working prototype of three-dimensionally interwoven concrete structures. Designed and fabricated by 21 participants from 11 countries in July and August, the prototype explores computational design, geometry rationalization, material behavior, and robotic fabrication as applied to concrete and robotic rod-bending techniques. The result is a network of self-supporting concrete branches that envelop an amorphous enclosure.
