An Ionic Liquid-Based Stretchable Sensor for Measuring Normal and Shear Force

材料科学 剪切(地质) 剪切力 法向力 复合材料 碳纳米管 聚合物 纳米技术 机械工程 计算机科学 工程类 机械 物理
作者
Omar Faruk Emon,Hao Sun,Ahadur Rahim,Jae‐Won Choi
出处
期刊:Soft robotics [Mary Ann Liebert, Inc.]
卷期号:10 (6): 1115-1125 被引量:2
标识
DOI:10.1089/soro.2022.0207
摘要

Soft and stretchable force sensors are widely used for health monitoring, robotics, prosthetics, and other applications. Soft force sensors with the capability of measuring both normal and shear force could offer even greater functionality and provide more information, particularly in the field of biomechanics. In this work, a new solid-state force sensor is proposed that can measure both normal and shear forces at the same time. The soft and stretchable sensor was fabricated using an ionic liquid (IL)/polymer network. Two separate IL-based polymer membranes were used to detect normal and shear forces. Sensor architecture and electrical wiring for normal, shear, and combined sensing were developed, and various material compositions for different sensor layers were investigated to find the combination that could achieve the optimum sensor performance. A basic material formulation for carbon nanotube-based electrodes, the IL/polymer network, and polymeric insulation layers was proposed. To configure a combined (normal and shear) sensor, separate sensors for normal and shear deformations were first designed and investigated. Later, a combined sensor was fabricated using a mold via screen printing, photocuring, and thermal curing. The combined sensor was evaluated under different force conditions. The results show that the sensor can reliably measure normal and shear forces. Moreover, the findings demonstrate a way to successfully modulate the sensitivity for normal and shear sensing by varying the material composition or geometric configuration, which provides flexibility for application-specific designs.

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