Double-plate calibration for coil capacitance effect and application in high-frequency eddy-current testing

Xu Jin; Lei Yinzhao

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Double-plate calibration for coil capacitance effect and application in high-frequency eddy-current testing

机译：用于线圈电容效应的双板校准和高频涡流测试的应用

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摘要

In high-frequency eddy-current testing, the coil impedance is often seriously affected by the capacitance effect, while the existing calibration method only corrects the capacitive couplings within the coil itself and ignores the coupling between the coil and the conductor. Combined with the equivalent circuit, a correction method for both the capacitive couplings is proposed using single-plate calibration. Furthermore, considering the skin effect at high frequencies, which leads to the calculation error of coil impedance, a modified impedance is introduced in the equivalent circuit and the double-plate calibration is presented. Using the two proposed methods and the existing calibration method, the experimental values of the coil impedance were respectively corrected when the coil was on a single-coated plate (titanium coating and TiAl6V4 titanium alloy substrate), and compared with the theoretical values between 1 and 100 MHz. The results show a sequentially improved correction effect of the existing calibration method, single-plate calibration, and double-plate calibration. Combined with the Levenberg-Marquardt method, the double-plate calibration was applied to the parameter measurement of the conductive plate with tens of micrometer coating. Through analyzing the sensitivity function of each tested parameter, we employed the inductance to calculate the substrate conductivity at hundreds of kilohertz and the resistance to calculate the coating thickness and conductivity at tens of megahertz. The parameters of three single-coated plates with coating thicknesses of 23 mu m, 32 mu m and 52 mu m were respectively tested, and the results show that the relative measurement errors of all parameters are less than 15%.

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来源
《Measurement Science & Technology》 |2021年第3期|共9页
作者
Xu Jin; Lei Yinzhao;
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作者单位

Beihang Univ Sch Automat Sci &

Elect Engn Beijing 100191 Peoples R China;

Beihang Univ Sch Automat Sci &

Elect Engn Beijing 100191 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类仪器、仪表;
关键词
capacitance effect; double-plate calibration; thickness measurement; conductivity measurement; high-frequency eddy-current testing;

机译：电容效果;双板校准;厚度测量;电导率测量;高频涡流测试;

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专利

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机译：SV-GMR传感器通过高频涡流测试技术进行导电微珠阵列检测
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机译：用于平面介质涡流测试的任意形薄壁线圈的阻抗计算
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机译：基于使用SV-GMR传感器和亥姆霍兹线圈激励器的涡流测试的导电微珠阵列检测
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机译：具有拾取线圈阵列的高级探头，用于改善涡流非破坏性测试中的裂缝评估
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机译：用于校准焊枪自动喷油器的仪器测试线圈的设计，构造和校准。
10. Non‐Cartesian GRAPPA and coil combination using interleaved calibration data – application to concentric‐ring MRSI of the human brain at 7T [O] . Philipp Moser, Wolfgang Bogner, Lukas Hingerl, -1

机译：使用交错校准数据的非笛卡尔GRAPPA和线圈组合–在7T时应用于人脑的同心环MRSI
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机译：通过使用SV-GMR传感器的高频涡流测试技术进行导电微珠阵列检测
12. THE ANALYSIS OF REFLECTION TYPE COILS FOR EDDY-CURRENT TESTING [R] . C. V. Dodd, C. C. Cheng, W. A. Simpson 1973

机译：用于涡流检测的反射式线圈分析

Double-plate calibration for coil capacitance effect and application in high-frequency eddy-current testing

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