MIT Researchers Revive 40-Year-Old Triangular Zipper Concept Now Made Possible by 3D Printing
Arthur T Knackerbracket writes:
3D printing brings design to life after four decades:
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.
That ability to switch between soft and rigid states is particularly relevant for robotics and deployable systems. Engineers often struggle to combine flexibility and structural stiffness within the same mechanism. Soft robotic systems adapt well to unpredictable environments but often lack strength, while rigid systems provide stability at the cost of flexibility. MIT's design attempts to combine both.
The researchers demonstrated a robotic quadruped with legs capable of changing height and stiffness by actuating the zipper mechanism with motors. Such systems could help robots navigate uneven terrain by dynamically adjusting limb geometry in response to the environment.
The team also tested the system in deployable structures. In one demonstration, they used the Y-Zipper to rapidly assemble a tent-like structure, with the three-sided mechanism serving as both the structural support frame and the joining system. According to the team, setup time dropped from roughly six minutes to one minute and 20 seconds because the zipper effectively snaps the structure into place.
Medical applications are another possible target. The researchers created a wrist-cast prototype that wrapped the mechanism around a wrist cast, allowing users to loosen it during the day for comfort before tightening it again at night for support.
Beyond engineering applications, the system can also produce dynamic moving structures for art and design. One prototype resembled a mechanical flower that bloomed" as a motor zipped the structure upward.
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