Ding Xincheng, Zhong Weibing, Jiang Haiqing, Li Mufang, Chen Yuanli, Lu Ying, Ma Jun, Yadav Ashish, Yang Liyan, Wang Dong
Hubei Key Laboratory of Advanced Textile Materials & Application, Hubei International Scientific and Technological Cooperation Base of Intelligent Textile Materials & Application, Wuhan Textile University, Wuhan 430200, China.
ACS Appl Mater Interfaces. 2020 Aug 5;12(31):35638-35646. doi: 10.1021/acsami.0c07928. Epub 2020 Jul 24.
Wearable piezoresistive sensors have attracted wide attention for application in human activities monitoring, smart robots, medical detection, etc. However, most of the sensing signals collected from the piezoresistive sensor are triggered by coupling forces, such as the combination of tension and pressure. Thus, the piezoresistive sensor would be incapable of accurately monitoring and evaluating specific human motion due to the mutual interference from tension and pressure, as the tension is difficult to be decoupled or eliminated from the coupling forces. Herein a prestretchable conductive yarn (PCY) sensor with pressure sensitivity but tension insensitivity was introduced to remove the disturbance from tension. The PCY-based piezoresistive sensor is tension insensitive (gauge factor of 0.11) but pressure sensitive (sensitivity of 187.33 MPa). The fabric-based pressure sensor assembled with cross-arranged PCY weft and warp revealed magnified pressure sensitivity compared with the single PCY yarn sensor, as well as tension insensitivity to strain and tensile angle. Moreover, it possessed benign cyclicity during 5000 cycles of pressing/releasing. Therefore, the fabric piezoresistive sensor based on weaved conductive yarns is suitable for highly accurate and large area pressure detection, such as monitoring massage intensity of acupuncture points.
可穿戴压阻式传感器在人体活动监测、智能机器人、医学检测等领域的应用中受到了广泛关注。然而,从压阻式传感器收集的大多数传感信号是由耦合力触发的,例如拉力和压力的组合。因此,由于拉力难以从耦合力中解耦或消除,压阻式传感器会因拉力和压力的相互干扰而无法准确监测和评估特定的人体运动。在此,引入了一种具有压力敏感性但对拉力不敏感的预拉伸导电纱(PCY)传感器,以消除拉力的干扰。基于PCY的压阻式传感器对拉力不敏感(应变片系数为0.11),但对压力敏感(灵敏度为187.33 MPa)。与单根PCY纱线传感器相比,由交叉排列的PCY纬纱和经纱组装而成的织物基压力传感器显示出放大的压力敏感性,以及对应变和拉伸角度的拉力不敏感性。此外,在5000次按压/释放循环中,它具有良好的循环性。因此,基于编织导电纱线的织物压阻式传感器适用于高精度大面积压力检测,如监测穴位的按摩强度。
