International Journal of Smart and Nano Materials (Jul 2018)

Actuation and blocking force of stacked nanocarbon polymer actuators

  • Ken Mukai,
  • Masahiro Yamamura,
  • Junko Kamata,
  • Hirosato Monobe,
  • Kinji Asaka

DOI
https://doi.org/10.1080/19475411.2018.1495669
Journal volume & issue
Vol. 9, no. 3
pp. 184 – 198

Abstract

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We have developed stacked nanocarbon polymer actuators that are composed of several nanocarbon polymer actuator films using nonwoven fabric as insulation layers. The nonwoven fabric prepared through electrospinning methods has extremely-low-density structures, which do not significantly prevent the motions of each nanocarbon actuator layer. Therefore, stacking several thin nanocarbon polymer actuators using nonwoven fabric as insulation layers is expected to increase generated force without decreasing the displacement of a one-layer actuator. We have prepared stacked actuators with one, two, three, four, and seven layers using this method. The displacement and blocking force of these actuators are measured and compared with those of one-layer actuators of different thicknesses. Displacement is weakly dependent on the thickness of the actuator films of the stacked actuators. On the contrary, it decreases considerably as the thickness of the actuator film of the one-layer actuator increases. In both cases, blocking force is proportional to the thickness of actuator films. We have developed a stacked actuator model based on a trilayer actuator model and confirmed the experimental results using the model.

Keywords