拉伸疲劳循环加载对织物应变传感器性能的影响

Saba Sajjadieh, Fateme Safari, Bahare Ghalebi, M. Shanbeh
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摘要

基于纺织品的应变传感器是一个潜在的平台,用于可穿戴设备的传感和。8个传感器包含监测人体。这些传感器不仅具有传统传感器的所有优点,而且具有成本低、柔性强、重量轻、易于采用、具有人体三维形状等特点。此外,最近的研究表明,它们是监测人体运动的最佳选择。本文研究了拉伸疲劳循环载荷对纺织应变传感器性能和灵敏度的影响,并制作了不同结构的聚酯/不锈钢短纤维混纺纱作为导电部件。传感器在纬纱和经纱密度、导电纱中不锈钢的百分比、导电纱的数量和织型等方面变化。对传感器进行了500次循环载荷试验,并对其拉伸疲劳循环载荷前后的拉伸性能和灵敏度进行了研究和比较。结果表明:含较少不锈钢纤维、较少导电纱数、斜纹织型和经纬密度较低的织物应变传感器在拉伸疲劳循环载荷作用下表现出较好的性能。
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EFFECT OF TENSILE FATIGUE CYCLIC LOADING ONPERFORMANCE OF TEXTILE-BASED STRAIN SENSORS
Textile-based strain sensors are a potential platform used in wearable devices for sensing and. 8 sensors containing monitoring the human body. These sensors not only have all the conventional sensors benefits but also, they are low-cost, flexible, light-weight, and easily adopted with three-dimensional shape of the body. Moreover, recent research has shown they are the best candidates for monitoring human’s body motion. In this study, the effect of tensile fatigue cyclic loads on performance and sensitivity of textilebased strain sensors was investigated polyester/stainless steel staple fiber blend yarn as a conductive part with different structures were produced. The sensors varied in weft and warp density, percentage of stainless steel in conductive yarn, the number of conductive yarns, and weave pattern. The sensors were subjected to 500 cyclic loads operations and their tensile properties and sensitivity were investigated and compared before and after applying tensile fatigue cyclic loads. The results showed the textile-based strain sensors containing less percentage of stainless-steel fiber, lower number of conductive yarns, twill weave pattern and lower density in warp and weft direction have shown better performance after tensile fatigue cyclic loads.
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