用于智能纺织品的无迟滞和线性针织应变传感器的开发

Beyza Bozali, J. J. F. V. Dam, L. Plaude, K. Jansen
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引用次数: 5

摘要

智能纺织品已经吸引了相当大的兴趣,它赋予传统服装广泛的功能,包括传感、驱动、数据处理和能量存储。对于基于纺织品的应变传感器,大多数研究证明它们原则上是可以工作的,然而,生产具有灵敏度稳定、滞后小、足够大的工作范围和良好的可重复性等理想性能的应变传感器仍然是一个挑战,需要开发新的软传感器技术。本文对针织应变传感器的机电性能进行了系统的研究,以找出最佳的工艺参数。我们找到了一种可重复且鲁棒的方法来生产在至少40%的工作范围内具有低滞后的针织应变传感器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of hysteresis-free and linear knitted strain sensors for smart textile applications
Smart textiles have been attracting considerable interest in imparting a wide range of functions to traditional clothing ranging from sensing, actuation, data processing, and energy storage. In the case of textile-based strain sensors, most of the studies proved that they can work in principle, however, producing strain sensors with desirable properties such as stable sensitivity, small hysteresis, large enough working range, and good repeatability still remains a challenge necessitating the developments of novel technologies for soft sensors. This paper conducts a systematic approach to investigate the electromechanical properties of the knitted strain sensors to find out the optimum process parameters. We found a repeatable and robust method to produce knitted strain sensors with low hysteresis at a working range of at least 40%.
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