Thickness Measurement of Laminated Structure Based on Harmonic Eddy Current Technology

2022 International Conference on Sensing, Measurement & Data Analytics in the era of Artificial Intelligence (ICSMD) Pub Date : 2022-11-30 DOI:10.1109/ICSMD57530.2022.10058433

Han Shi, Quanxin Zhou, Kai Chen, Guiyun Leng, Z. Zhong

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Abstract

Laminated structural materials are widely used in various fields, and the simultaneous measurement of the thickness of multilayer materials with different physical properties is a difficult problem. It has significant academic value to measure the thickness of multi-layer materials. This article aims at the synthetic fuel rod shell structure, and establishes a laminated conductive structure impedance model with non-conductive layer. The viability of measuring the thickness of non-conductive layer and conductive layer is verified by Comsol finite element simulation. The traditional eddy current method can measure the thickness of non-conductive layer. The analytical model of laminated structure can fit the thickness of conductive layer by measuring impedance. In the end, the impedance analytical model effectively reduces the influence of skin depth and lift off effect, the thicknesses of two layers of different materials are obtained, which provides a theoretical basis and a quick method for the thickness measurement of complex laminated structures.

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基于谐波涡流技术的层合结构厚度测量

叠层结构材料广泛应用于各个领域，同时测量具有不同物理性能的多层材料的厚度是一个难题。多层材料的厚度测量具有重要的理论价值。本文针对合成燃料棒壳体结构，建立了含非导电层的层状导电结构阻抗模型。通过Comsol有限元仿真验证了非导电层和导电层厚度测量的可行性。传统的涡流法可以测量非导电层的厚度。层状结构的解析模型可以通过测量阻抗来拟合导电层的厚度。最后，阻抗分析模型有效地降低了蒙皮深度和升力效应的影响，得到了两层不同材料的厚度，为复杂层合结构的厚度测量提供了理论依据和快速方法。

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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2022 International Conference on Sensing, Measurement & Data Analytics in the era of Artificial Intelligence (ICSMD)

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