Fully 3D-printed soft robots with integrated fluidic circuitry

We 3D-print unified soft robots comprising fully integrated fluidic circuitry capable of sophisticated operations. The emergence of soft robots has presented new challenges associated with controlling the underlying fluidics of such systems. Here, we introduce a strategy for additively manufacturing...

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Bibliographic Details
Published in:Science advances 2021-07, Vol.7 (29)
Main Authors: Hubbard, Joshua D., Acevedo, Ruben, Edwards, Kristen M., Alsharhan, Abdullah T., Wen, Ziteng, Landry, Jennifer, Wang, Kejin, Schaffer, Saul, Sochol, Ryan D.
Format: Article
Language:English
Subjects:
Applied Sciences and Engineering
Engineering
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Summary:We 3D-print unified soft robots comprising fully integrated fluidic circuitry capable of sophisticated operations. The emergence of soft robots has presented new challenges associated with controlling the underlying fluidics of such systems. Here, we introduce a strategy for additively manufacturing unified soft robots comprising fully integrated fluidic circuitry in a single print run via PolyJet three-dimensional (3D) printing. We explore the efficacy of this approach for soft robots designed to leverage novel 3D fluidic circuit elements—e.g., fluidic diodes, “normally closed” transistors, and “normally open” transistors with geometrically tunable pressure-gain functionalities—to operate in response to fluidic analogs of conventional electronic signals, including constant-flow [“direct current (DC)”], “alternating current (AC)”–inspired, and preprogrammed aperiodic (“variable current”) input conditions. By enabling fully integrated soft robotic entities (composed of soft actuators, fluidic circuitry, and body features) to be rapidly disseminated, modified on demand, and 3D-printed in a single run, the presented design and additive manufacturing strategy offers unique promise to catalyze new classes of soft robots.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.abe5257