Terahertz Non-Destructive Testing and Imaging of High-Voltage Cables

Zhang Zhenwei; Zhang Zhenwei; Xu Jing; Jia Rui; Wu Yinghong; Guan Hao; Han Siyi; Zhang Cunlin; Zhao Yuejin

doi:10.3389/fphy.2022.893145

Frontiers in Physics (Apr 2022)

Terahertz Non-Destructive Testing and Imaging of High-Voltage Cables

Zhang Zhenwei,
Zhang Zhenwei,
Xu Jing,
Jia Rui,
Wu Yinghong,
Guan Hao,
Han Siyi,
Zhang Cunlin,
Zhao Yuejin

Affiliations

Zhang Zhenwei: Beijing Key Laboratory for Precision Optoelectronic Measurement Instrument and Technology, School of Optics and Photonics, Beijing Institute of Technology, Beijing, China
Zhang Zhenwei: Key Laboratory of Terahertz Optoelectronics, Department of Physics, Beijing Engineering Research Center of Terahertz and Infrared Technology, Capital Normal University, Beijing, China
Xu Jing: Beijing Key Laboratory for Precision Optoelectronic Measurement Instrument and Technology, School of Optics and Photonics, Beijing Institute of Technology, Beijing, China
Jia Rui: Key Laboratory of Terahertz Optoelectronics, Department of Physics, Beijing Engineering Research Center of Terahertz and Infrared Technology, Capital Normal University, Beijing, China
Wu Yinghong: Key Laboratory of Terahertz Optoelectronics, Department of Physics, Beijing Engineering Research Center of Terahertz and Infrared Technology, Capital Normal University, Beijing, China
Guan Hao: Key Laboratory of Terahertz Optoelectronics, Department of Physics, Beijing Engineering Research Center of Terahertz and Infrared Technology, Capital Normal University, Beijing, China
Han Siyi: Key Laboratory of Terahertz Optoelectronics, Department of Physics, Beijing Engineering Research Center of Terahertz and Infrared Technology, Capital Normal University, Beijing, China
Zhang Cunlin: Key Laboratory of Terahertz Optoelectronics, Department of Physics, Beijing Engineering Research Center of Terahertz and Infrared Technology, Capital Normal University, Beijing, China
Zhao Yuejin: Beijing Key Laboratory for Precision Optoelectronic Measurement Instrument and Technology, School of Optics and Photonics, Beijing Institute of Technology, Beijing, China

DOI: https://doi.org/10.3389/fphy.2022.893145
Journal volume & issue: Vol. 10

Abstract

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The evaluation of the internal defects in high-voltage cross-linked polyethylene cables is highly crucial for the security and reliability of power transmission. Here, a terahertz (THz) frequency-modulated-continuous-wave non-destructive testing (NDT) imaging system is used to demonstrate the non-contact detection of a high-voltage cable (35 KV). Combined with linear scanning and axial rotation, the three-dimensional (3D) data of the columnar target is acquired, and a 3D perspective image is reconstructed. The correspondence between the target in the real space and image space is determined to accurately show the internal spiral structure and strand number of metal wires. The results indicate that prefabricated air and water holes in the polyethylene insulation layer can be displayed. Furthermore, feature defect signals are automatically classified and recognised by combining the principal component analysis dimension reduction method and the support vector machine classification method, which can predict abnormal defects more efficiently in mass data. These results provide technical guidance for the non-contact NDT and visual evaluation of the internal state of detected cable targets.

Published in Frontiers in Physics

ISSN: 2296-424X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science: Physics
Website: https://www.frontiersin.org/journals/physics

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