Stimuli-induced bi-directional hydrogel unimorph actuators

نویسندگان

  • Shanliangzi Liu
  • Elisa Boatti
  • Katia Bertoldi
  • Rebecca Kramer-Bottiglio
  • John A. Paulson
چکیده

Stimuli responsive hydrogels may be promising materials for shape transforming structures due to their ability to deform significantly in response to an environmental stimulus without the need for external power. It is well-known that by laminating swelling hydrogels and non-swelling flexible materials, such as inert elastomers, bending actuation can be achieved. In this work, we report an improved hydrogel-elastomer bonding process and demonstrate the utility of the processwith a stimuli-induced bidirectional hydrogel unimorph actuator. The actuator is comprised of polyacrylamide (PAAm) hydrogel, a humidity-sensitive gel that can swell to 17 times its original volume, bonded to polydimethylsiloxane (PDMS) elastomer, which is humidity insensitive. The unimorph actuator bends in one direction during swelling in an aqueous environment and in the opposite direction when drying in air, without any observed delamination between layers. We achieve the strong bonding between PAAm hydrogel and PDMS elastomer through both chemical and mechanical means, and quantify an order-of-magnitude improvement in interfacial bond strength relative to bonding through chemical means alone.We observe the bi-directional bending behavior of hydrogel unimorph actuators as a function of environmental humidity and prove that the structure’s motion can be tuned by manipulating the thickness of the PDMS elastomer layer, as well as predicted using a simplified analytical approach. Lastly, we expand upon a simple rectangular unimorph structure to demonstrate more complex bending, wrinkling, and surface texture behaviors. © 2018 Elsevier Ltd. All rights reserved.

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تاریخ انتشار 2018