Thermographic evaluation of Coating Thickness with Different Modulation Waveforms

2021 IEEE Far East NDT New Technology & Application Forum (FENDT) Pub Date : 2021-12-14 DOI:10.1109/FENDT54151.2021.9749647

Siqi Chen, Kai Zhang, Li Chen, Tao He, Fei Chen, Haijun Jiang

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引用次数: 1

Abstract

Modulated thermography has been successfully applied to coating thickness evaluations. In addition to lock-in thermography (LIT), three different more waveforms are used to alternate the heating patterns. Among them, frequency modulated thermal wave imaging (FMTWI) belongs to frequency modulation, Barker coded lock-in thermography (BC-LIT) belongs to phase modulation, Barker coded frequency modulated thermal wave imaging (BC-FMTWI) belongs to the combination of frequency modulation and phase modulation. A two-dimensional simulation model is established with COMSOL. To better compare the detectability in coating thickness, Gaussian white noise is introduced into the temperature signal. After Cross-correlation (CC), both CC-Delay and CC-Phase demodulation methods are used to calculate the SNR of different waveforms. The results show that CC-Phase is more preferable for detecting the thickness of thin coatings for all modulating waveforms. FMTWI and BC-FMTWI can effectively increase the detection range in thickness. However, LIT still has better SNR in its sensitive thickness range.

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不同调制波形下涂层厚度的热成像评价

调制热成像技术已成功应用于涂层厚度评价。除了锁定热成像(LIT)之外，还有三种不同的波形用于交替加热模式。其中，调频热波成像(FMTWI)属于调频，巴克编码锁相热成像(BC-LIT)属于相位调制，巴克编码调频热波成像(BC-FMTWI)属于调频与相位调制的结合。利用COMSOL软件建立了二维仿真模型。为了更好地比较涂层厚度的可检测性，在温度信号中引入高斯白噪声。在互相关(CC)之后，使用CC- delay和CC- phase解调方法计算不同波形的信噪比。结果表明，在各种调制波形下，cc相都能较好地检测薄涂层的厚度。FMTWI和BC-FMTWI可以有效地增加厚度的探测范围。但在其敏感厚度范围内，LIT仍具有较好的信噪比。

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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2021 IEEE Far East NDT New Technology & Application Forum (FENDT)

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