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MIT revives 40-year-old zipper concept for 3D-printed shape-shifting robots

作者 PulseAugur 编辑部 · [2 个来源] ·

Researchers at MIT have revived a 40-year-old concept for a triangular zipper, now made feasible by 3D printing. This 'Y-Zipper' mechanism can transform flexible, floppy structures into rigid, load-bearing beams in seconds. The technology has potential applications in creating adaptive robots, rapidly deployable shelters, and reconfigurable medical devices by combining flexibility with structural stiffness. AI

影响 Enables new forms of adaptive robotics and deployable structures by combining flexibility and stiffness.

排序理由 Academic research from a university lab on a novel mechanism.

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MIT revives 40-year-old zipper concept for 3D-printed shape-shifting robots

报道来源 [2]

  1. Tom's Hardware TIER_1 English(EN) · Etiido Uko ·

    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

    MIT researchers have developed a 3D-printed three-sided zipper that rapidly transforms floppy structures into rigid beams, robotic limbs, and deployable frameworks using triangular geometry.

  2. Mastodon — fosstodon.org TIER_1 English(EN) · [email protected] ·

    MIT researchers revive 40-year-old triangular zipper concept now made possible by 3D printing, creates shape-shifting robots and deploy… MIT researchers have de

    MIT researchers revive 40-year-old triangular zipper concept now made possible by 3D printing, creates shape-shifting robots and deploy… MIT researchers have developed a 3D-printed three-sided zipper that rapidly transforms floppy structures into rigid beams, robotic limbs, and d…

    链接 tomshardware.com/…/mit-researchers-revive…

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