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Characterization of a tactile sensor using a small, embedded strain gauge

Yuki Hashimoto, Tatsuya Usui, Hiroki Ishizuka, Sei Ikeda, Osamu Oshiro

Year
2021
Citations
5

Abstract

Abstract In recent years, tactile sensors comprising flexible materials have been studied for soft robotics. Several conventional tactile sensors are based on a microchannel filled with liquid metal, for flexibility. In this study, we proposed a soft tactile sensor that is vertically embedded with a liquid metal strain gauge in an elastomer using a narrow wire mold. Despite the narrow and small design, the strain gauge can detect an applied force. In addition, the design has the potential to be arrayed in a dense setting. In this study, we evaluated our proposed tactile sensor with a single strain gauge and confirmed its sensing capability.

Keywords

Gauge factorTactile sensorStrain gaugeSoft roboticsMicrochannelMaterials scienceFlexibility (engineering)RoboticsElastomerGauge (firearms)

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