Evaluation Method of Gas Permeability for Elastomers

Harusue, Tetsufumi; Ontsuka, Hiroyuki; Ohtake, Yoshito

doi:10.2324/gomu.83.14

Cited by 6 publications

(1 citation statement)

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“…The decrease in the volume expansion ratio of the silicone sample was larger, as the permeability of the fluorine material in the silicone was higher. The gas permeability in silicone was, generally, 10 to 100 times higher than that in urethane [29].…”

Section: Repeated Actuationmentioning

confidence: 85%

Soft Actuator with Large Volumetric Change using Vapor-liquid Phase Transition

Hirota

Tsumori

2018

The Proceedings of the Symposium on Micro-Nano Science and Technology

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Soft robotics has become an attractive research topic with the recent development of soft actuators. Herein, we propose a deformable soft actuator with large volumetric changes. The proposed elastomer contains liquid droplets; their transition from the liquid phase to the vapor phase can be controlled by heat. We chose silicone and urethane rubbers as the matrix materials; droplets of water and fluorine were dispersed homogeneously in the rubber matrix as micelles or solutes. After curing the rubber, bubbles appeared owing to microwave heating. We succeeded in generating a fine bubble structure using the proposed method, and we could reduce the leakage of the droplet material using urethane as the matrix material. Finally, we attempted to fabricate a small actuator to work in the channels. The proposed method can be useful for miniaturized soft robots.

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Section: Repeated Actuationmentioning

confidence: 85%