电容感应
触觉传感器
软机器人
材料科学
3D打印
热塑性聚氨酯
夹持器
电极
制作
3d打印
计算机科学
机器人
人工智能
机械工程
生物医学工程
工程类
复合材料
弹性体
物理化学
医学
病理
化学
操作系统
替代医学
作者
Jacob Nichols Cook,Abhishek Sabarwal,Harley Clewer,William Taube Navaraj
标识
DOI:10.1109/sensors47125.2020.9278582
摘要
Herein, development of a 3-D printed soft robotic tri-gripper embedded with tactile sensor array is presented. A facile fabrication strategy by 3D-printing thermoplastic polyurethane (TPU) was employed to fabricate the soft tri-gripper consisting of 9 capacitive tactile sensor-laden phalanges. The 3D-printed TPU itself was used as a sensory dielectric for the fabricated tri-gripper. The sensor and interconnect electrodes have been designed to have minimum cross-sensor capacitive coupling with stretchable interconnects to ensure robust integration. The designed sensors were patterned as copper electrodes on top of flexible polyimide film and embedded within the gripper during the 3D-printing process. The sensors were characterised and it exhibited a maximum sensitivity of 2.87 %/kPa. The gripper was tested for up to 100 cycles of compression and expansion. The developed sensory gripper finds application in industrial and agricultural robotics. A sample application in a fruit pick-and-drop task was demonstrated which makes use of both artificial vision and tactile sensing modalities.
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