Feasibility study on the detection of corrosion of a cable metal shield using terahertz imaging

R. Sato, M. Komatsu, M. Mizuno, K. Fukunaga, Y. Ohki
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引用次数: 3

Abstract

Time-domain imaging and spectroscopic measurements were carried out using terahertz (THz) light in order to examine the feasibility of non-destructive corrosion diagnosis of a metallic shielding layer in a power cable. At first, the absorbance of the THz light was measured for various corroded copper, namely copper oxide, basic copper carbonate, and copper chloride. As a result, both basic copper carbonate and copper chloride were found to exhibit absorption clear and strong enough for the imaging. Next, a non-corroded copper plate and one of the corroded plates were placed on a metal plate without making an open interspace, and the THz light was irradiated and scanned in order to get two-dimensional images. When the plate is corroded to form either basic copper carbonate or copper chloride, the intensity of reflected light becomes small compared with the non-corroded copper plate. The reason for this seems that the THz light was scattered more at the surface of the corroded copper plate and was absorbed more by the corrosion. These phenomena indicate that non-destructive diagnosis to detect corrosion of a shield metal is possible.
太赫兹成像检测电缆金属屏蔽腐蚀的可行性研究
利用太赫兹(THz)光进行时域成像和光谱测量,以检验电力电缆金属屏蔽层无损腐蚀诊断的可行性。首先,测量了各种腐蚀铜的太赫兹光吸光度,即氧化铜、碱式碳酸铜和氯化铜。结果发现,碱式碳酸铜和氯化铜都表现出足够清晰和强的吸收,足以成像。接下来,将一块未腐蚀的铜板和一块腐蚀的铜板放置在一块金属板上,不做任何开放的间隙,并对太赫兹光进行照射和扫描,以获得二维图像。当铜板被腐蚀形成碱式碳酸铜或氯化铜时,反射光的强度与未被腐蚀的铜板相比变小。其原因似乎是太赫兹光在腐蚀铜板表面散射更多,被腐蚀吸收更多。这些现象表明,无损诊断检测屏蔽金属的腐蚀是可能的。
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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