Congratulations to Nervous System, whose Kinematics Dress was just acquired by the Museum of Modern Art (a prescient, pre-emptive move that might keep the curators of the Metropolitan Museum‘s Costume Institute awake for nights to come). While the physical product is certainly a head-turner, it’s the underlying technology that’s the true wonder—and maybe of greater interest and implication to architects.
DesignX presenter Skylar Tibbits, the founder of SJET, Director of Self Assembly Lab, and Senior TED Fellow, will host a hands-on lab introducing interior designers and architects to the future of additive manufacturing and programmable matter. Discover how matter programmers design materials to self-assemble when exposed to the elements. Additional topics include 4D printing and how 3D printing technology is changing. Tibbits will utilize self-assembling structures to touch base on what these changes mean for design practices. The workshop takes place on Tuesday, May 21, 2013 from 12:30 to 1:30 PM and offers 1 AIA CEU. Registration is available online.
Did you miss 3-D printing guru Skylar Tibbits at this year’s TED conference? Never fear, there’s an opportunity to hear Tibbits in New York City on April 12. And not just hear but participate in a hands-on workshop that Tibbits will lead as part of Facades + PERFORMANCE, a two-day conference on high-performance building enclosures sponsored by The Architect’s Newspaper.
Earlier this week at TED, Tibbits gave 3-D printing another dimension, quite literally, when he presented the possibility of “4-D printing,” or programming materials to self-reassemble into new structures over time. Tibbits unveiled a 4-D printer concept developed with MIT that he argues could have far-reaching implications for not just manufacturing but also for architecture. Will architects one day be able to design structures that build and mend themselves? Here’s the idea, as Tibbits told TED:
“If we combine the processes that natural systems offer intrinsically—genetic instructions, energy production, error correction—with those artificial or synthetic—programmability for design and scaffold, structure, mechanisms—we can potentially have extremely large-scale quasi-biological and quasi-synthetic architectural organisms.”