MIT researchers revive 40-year-old triangular zipper concept now made possible by 3D printing, cr…

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MIT researchers revive 40-year-old triangular zipper concept now made possible by 3D printing, creates shape-shifting robots and deployable structures — 3D-printed 'Y-Zipper' turns floppy tentacles into rigid beams in seconds

Tom's Hardware·https://www.tomshardware.com/author/etiido-uko·22 days ago

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#nvidia #benchmarking #intelarc #science #zipper #rigid

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(Image credit: MIT CSAIL) Researchers at MIT's Computer Science and Artificial Intelligence Laboratory have developed a three-sided zipper that transforms 3D-printed floppy structures into rigid, load-bearing forms in seconds. The mechanism, called the “Y-Zipper,” can rapidly assemble beams, arches, robotic limbs, and deployable frameworks — potentially opening the door to adaptive robots, fast-deploying shelters, and reconfigurable medical devices. Unlike conventional zippers that connect two flat surfaces in 2D, the Y-Zipper joins three flexible arms into a rigid 3D triangular tube. When open or unzipped, the structure behaves like soft plastic strips or floppy tentacles, with each arm flexing and twisting independently. Once zipped shut with a custom slider, however, the arms interlock to form a stiff, beam-like structure capable of supporting loads.…

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MIT researchers revive 40-year-old triangular zipper concept now made possible by 3D printing, creates shape-shifting robots and deployable structures &mdash; 3D-printed 'Y-Zipper' turns floppy tentacles into rigid beams in seconds

MIT researchers revive 40-year-old triangular zipper concept now made possible by 3D printing, creates shape-shifting robots and deployable structures — 3D-printed 'Y-Zipper' turns floppy tentacles into rigid beams in seconds