Visual Strain Sensors Based on Fabry–Perot Structures for Structural Integrity Monitoring

Sensors (Basel, Switzerland) Pub Date : 2024-06-01 DOI:10.3390/s24113676

Qingyuan Chen, F. Liu, Guofeng Xu, Boshuo Yin, Ming Liu, Yifei Xiong, Feiying Wang

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Abstract

Strain sensors that can rapidly and efficiently detect strain distribution and magnitude are crucial for structural health monitoring and human–computer interactions. However, traditional electrical and optical strain sensors make access to structural health information challenging because data conversion is required, and they have intricate, delicate designs. Drawing inspiration from the moisture-responsive coloration of beetle wing sheaths, we propose using Ecoflex as a flexible substrate. This substrate is coated with a Fabry–Perot (F–P) optical structure, comprising a “reflective layer/stretchable interference cavity/reflective layer”, creating a dynamic color-changing visual strain sensor. Upon the application of external stress, the flexible interference chamber of the sensor stretches and contracts, prompting a blue-shift in the structural reflection curve and displaying varying colors that correlate with the applied strain. The innovative flexible sensor can be attached to complex-shaped components, enabling the visual detection of structural integrity. This biomimetic visual strain sensor holds significant promise for real-time structural health monitoring applications.

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基于法布里-珀罗结构的视觉应变传感器用于结构完整性监测

能够快速有效地检测应变分布和大小的应变传感器对于结构健康监测和人机交互至关重要。然而，传统的电子和光学应变传感器需要进行数据转换，而且设计复杂精细，因此获取结构健康信息具有挑战性。我们从甲虫翅鞘的湿度响应颜色中汲取灵感，提出使用 Ecoflex 作为柔性基底。这种基底涂有法布里-珀罗（F-P）光学结构，由 "反射层/可拉伸干涉腔/反射层 "组成，从而形成一个动态变色视觉应变传感器。在施加外部应力时，传感器的柔性干涉腔会拉伸和收缩，促使结构反射曲线发生蓝移，并显示与施加应变相关的不同颜色。这种创新型柔性传感器可以安装在形状复杂的部件上，从而实现对结构完整性的视觉检测。这种仿生物视觉应变传感器为实时结构健康监测应用带来了巨大前景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Sensors (Basel, Switzerland)

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