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Robotic Fabrication: The Latest Architecture and News

Neri Oxman and MIT Develop Programmable Biocomposites for Digital Fabrication

16:00 - 27 May, 2018
Courtesy of MIT Media Lab
Courtesy of MIT Media Lab

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.”

Courtesy of MIT Media Lab Courtesy of MIT Media Lab Courtesy of MIT Media Lab Courtesy of MIT Media Lab + 15

Robotic Fabrications Workshop - Bandsaw Manoeuvres, AA Visiting School

09:57 - 25 April, 2017
Robotic Fabrications Workshop - Bandsaw Manoeuvres, AA Visiting School, Bandsaw Manoeuvres
Bandsaw Manoeuvres

Merging expert knowledge of timber construction with cutting-edge robotic fabrication technologies we will explore the creative potential of prototyping complex and large-scale timber structures with digital tools resulting in the construction of a roof structure for the temporary foundry building for the Hooke Park Campus.

Our weapons of choice- the chainsaw and bandsaw- will gain an augmented level of precision and control when wielded by the large Kuka KR150 robot. Through rigorous physical testing, we will prototype connection details utilizing the extraordinary precision and flexibility of multi-axis robotic machining.

AA Summer DLAB Program Applies Computational Design to Concrete

06:00 - 24 October, 2016

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.

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