Design and Fabrication of Soft Artificial Skin Using Embedded Microchannels and Liquid Conductors

Yong-Lae Park, Bor-rong Chen, and Robert J. Wood
IEEE Sensors Journal, Vol. 12, No. 8, August, 2012, pp. 2711-2718.


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Abstract
We describe the design, fabrication, and calibration of a highly compliant artificial skin sensor. The sensor consists of multilayered mircochannels in an elastomer matrix filled with a conductive liquid, capable of detecting multiaxis strains and contact pressure. A novel manufacturing method comprised of layered molding and casting processes is demonstrated to fabricate the multilayered soft sensor circuit. Silicone rubber layers with channel patterns, cast with 3-D printed molds, are bonded to create embedded microchannels, and a conductive liquid is injected into the microchannels. The channel dimensions are 200 um (width) × 300 um (height). The size of the sensor is 25 mm × 25 mm, and the thickness is approximately 3.5 mm. The prototype is tested with a materials tester and showed linearity in strain sensing and nonlinearity in pressure sensing. The sensor signal is repeatable in both cases. The characteristic modulus of the skin prototype is approximately 63 kPa. The sensor is functional up to strains of approximately 250%.

Keywords
artificial skin, eutectic gallium indium (EGaIn), pressure sensing, soft sensors, strain sensing

Notes
Number of pages: 8

Text Reference
Yong-Lae Park, Bor-rong Chen, and Robert J. Wood, "Design and Fabrication of Soft Artificial Skin Using Embedded Microchannels and Liquid Conductors," IEEE Sensors Journal, Vol. 12, No. 8, August, 2012, pp. 2711-2718.

BibTeX Reference
@article{Park_2012_7482,
   author = "Yong-Lae Park and Bor-rong Chen and Robert J. Wood",
   title = "Design and Fabrication of Soft Artificial Skin Using Embedded Microchannels and Liquid Conductors",
   journal = "IEEE Sensors Journal",
   pages = "2711-2718",
   month = "August",
   year = "2012",
   volume = "12",
   number = "8",
}