炭黑
材料科学
电容感应
硅橡胶
复合材料
复合数
基质(水族馆)
电子皮肤
可穿戴计算机
导电体
天然橡胶
介电弹性体
触觉传感器
弹性体
硅酮
光电子学
声学
计算机科学
人工智能
嵌入式系统
地质学
物理
操作系统
海洋学
机器人
作者
Xiaohui Guo,Ying Huang,Xia Cai,Caixia Liu,Ping Liu
标识
DOI:10.1088/0957-0233/27/4/045105
摘要
To achieve the wearable comfort of electronic skin (e-skin), a capacitive sensor printed on a flexible textile substrate with a carbon black (CB)/silicone rubber (SR) composite dielectric was demonstrated in this paper. Organo-silicone conductive silver adhesive serves as a flexible electrodes/shielding layer. The structure design, sensing mechanism and the influence of the conductive filler content and temperature variations on the sensor performance were investigated. The proposed device can effectively enhance the flexibility and comfort of wearing the device asthe sensing element has achieved a sensitivity of 0.02536%/KPa, a hysteresis error of 5.6%, and a dynamic response time of ~89 ms at the range of 0–700 KPa. The drift induced by temperature variations has been calibrated by presenting the temperature compensation model. The research on the time–space distribution of plantar pressure information and the experiment of the manipulator soft-grasping were implemented with the introduced device, and the experimental results indicate that the capacitive flexible textile tactile sensor has good stability and tactile perception capacity. This study provides a good candidate for wearable artificial skin.
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