Spatiotemporal Variance Image Reconstruction for Thermographic Inspections

Logan M. Wilcox;Emily M. Johnson;Emma T. Bohannon;Catherine E. Johnson;Kristen M. Donnell
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Abstract

Active microwave thermography (AMT) is a nondestructive testing and evaluation (NDT&E) technique that utilizes a radiating antenna to induce a thermal increase on or within a specimen under test (SUT). The radiated power density is spatially nonuniform and therefore results in a spatially nonuniform thermal excitation, which may result in missed or false indications of defects. To this end, this work proposes a novel image reconstruction technique for nonuniform excitation/heating and is referred to as spatiotemporal variance reconstruction (STVR). STVR utilizes the spatial and temporal variance of the surface thermal profile. STVR is advantageous in that it does not require a reference measurement nor manipulation of the interrogating signal to mitigate the effect of the nonuniform thermal excitation. To illustrate the improvements offered by STVR, AMT measurements were completed on a set of carbon fiber-reinforced polymer (CFRP) structures with an absorbing topcoat. Additional thermographic measurements were completed utilizing a halogen lamp source on a pressed high explosive (HE) SUT. In all cases, the STVR-processed results provide an indication of the defect, within 5% spatial error, without the need for a reference measurement or signal manipulation, which was not previously possible.
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用于热成像检测的时空方差图像重构
有源微波热成像仪(AMT)是一种无损检测和评估(NDT&E)技术,它利用辐射天线在被测样品(SUT)上或被测样品内部引起热量增加。辐射功率密度在空间上是不均匀的,因此会产生空间上不均匀的热激励,这可能会导致漏报或误报缺陷。为此,本研究提出了一种针对非均匀激励/加热的新型图像重建技术,即时空方差重建(STVR)。STVR 利用表面热剖面的时空方差。STVR 的优势在于,它不需要参考测量,也不需要对询问信号进行处理来减轻非均匀热激励的影响。为了说明 STVR 所带来的改进,我们在一组带有吸收表层的碳纤维增强聚合物 (CFRP) 结构上完成了 AMT 测量。此外,还利用卤素灯源对压制的高爆 (HE) SUT 进行了热成像测量。在所有情况下,经过 STVR 处理的结果都能显示缺陷,空间误差不超过 5%,而且无需参考测量或信号处理,这在以前是不可能实现的。
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