基于光纤的sma包覆双晶片集成温度传感方法

IF 2.2 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Sensors Letters Pub Date : 2025-07-17 DOI:10.1109/LSENS.2025.3589437

Navneet Chouhan;Nandini Patra;Iyamperumal Anand Palani;Vipul Singh

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引用次数: 0

摘要

提出了一种新型的双晶集成光纤结构，用于宽范围内的线性温度传感。采用形状记忆合金包覆kapton -聚酰亚胺片材作为双晶片。它的位移随温升成比例地影响光信号，并在光纤中灌输线性传感行为。在40°C - 120°C范围内，记录了显著的光强变化，线性良好。在马氏体中灵敏度为~ 14.8 mV/°C，在奥氏体相变范围内灵敏度为~ 21.2 mV/°C，精度误差为±0.014°C。光谱分析也证实了两个区域内的线性强度变化，然而，在~ 1.6 nm的波长处存在明显的偏转。该技术提供了一种经济的传感解决方案，具有与物联网集成的潜力。它具有智能传感能力，从而服务于当代工业需求。

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SMA-Coated Bimorph Integrated Approach Toward Temperature Sensing Using Optical Fiber

A novel bimorph-integrated-optical fiber structure has been proposed for sensing the temperature with linearity within a broad range. Shape memory alloy-coated Kapton-polyimide sheet was used as a bimorph. Its displacement with temperature rise proportionally impacts the optical signal and inculcates a linear sensing behavior in the optical fiber. Significant optical intensity changes have been recorded with good linearity within 40 °C–120 °C. Sensitivity of ∼14.8 mV/ °C in martensite while ∼21.2 mV/ °C in the austenite phase transition range was observed with an accuracy error of ±0.014 °C. Linear intensity changes were also confirmed from the spectral analysis within two regions, however, there was a sharp deflection in wavelength of ∼1.6 nm. The technology offers an economical sensing solution with the potential for integration with the Internet of Things. It has capability for smart sensing, thereby serving contemporary industrial requirements.

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来源期刊

IEEE Sensors Letters Engineering-Electrical and Electronic Engineering

CiteScore

3.50

自引率

7.10%

发文量

194