Pulse-modulation-based eddy current technique for non-destructive evaluation of conductive structures with subsurface corrosion

Li Yong; Yan Bei; Li Da; Li Yili; Chen Zhenmao

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Pulse-modulation-based eddy current technique for non-destructive evaluation of conductive structures with subsurface corrosion

机译：基于脉冲调制的涡流技术对具有地下腐蚀的导电结构进行无损评估

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Subsurface Corrosion (SSC) has posed a severe threat to the integrity of in-service conductive structures. Although Pulsed Eddy Current technique (PEC) has been proven applicable regarding non-destructive inspection of SSC, it has been found disadvantageous in terms of Signal-to-noise Ratio (SNR) and sensitivity to SSC, etc. In light of this, this paper proposes Pulse-modulation-based Eddy Current technique (PMEC). The advantages of PMEC over PEC have been analyzed via simulations based on analytical modeling and a series of experiments. Through theoretical and experimental investigations, it has been found that PMEC realizes the elaborate inspection of conductive structure, and has higher sensitivity in detection and evaluation of SSC than PEC.

机译：地下腐蚀（SSC）对使用中的导电结构的完整性构成了严重威胁。尽管已证明脉冲涡流技术（PEC）可用于SSC的非破坏性检查，但已发现在信噪比（SNR）和对SSC的灵敏度等方面存在不利之处。论文提出了基于脉冲调制的涡流技术（PMEC）。通过基于分析模型的仿真和一系列实验，分析了PMEC优于PEC的优势。通过理论和实验研究，发现PMEC可以实现对导电结构的精细检查，并且在SSC的检测和评估中比PEC具有更高的灵敏度。

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《International journal of applied electromagnetics and mechanics》 |2016年第2期|共10页
作者
Li Yong; Yan Bei; Li Da; Li Yili; Chen Zhenmao;
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正文语种 eng
中图分类电磁学、电动力学;
关键词
Electromagnetic non-destructive evaluation; pulse-modulation-based eddy current; subsurface corrosion; analytical modeling;

机译：电磁无损评估;基于脉冲调制的涡流;地下腐蚀;分析模型;

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1. Pulse-modulation-based eddy current technique for non-destructive evaluation of conductive structures with subsurface corrosion [J] . Li Yong, Yan Bei, Li Da, International journal of applied electromagnetics and mechanics . 2016,第1a2期

机译：基于脉冲调制的涡流技术对具有地下腐蚀的导电结构进行无损评估
2. Pulse-modulation eddy current inspection of subsurface corrosion in conductive structures [J] . Li Yong, Yan Bei, Li Da, NDT & E International: Independent Nondestructive Testing and Evaluation . 2016,第Null期

机译：导电结构地下腐蚀的脉冲调制涡流检查
3. Skin effect based technique in eddy current non-destructive testing for thickness measurement of conductive material [J] . Lakhdari Ala Eddine, Cheriet Ahmed, El-Ghoul Islam Nacereddine Science, Measurement & Technology, IET . 2019,第2期

机译：涡流无损检测中基于趋肤效应的技术，用于测量导电材料的厚度
4. Non-destructive Evaluation of Conductive Materials by Eddy Current Swept Frequency Technique [C] . Andrea Stubendekova, Pavel Karban, Ladislav Janousek, International Conference on the Computation of Electromagnetic Fields . 2016

机译：涡流扫描频率技术的导电材料的无损评估
5. Corrosion damage detection and characterization using non-destructive evaluation techniques. [D] . Karnati, Nageshwarreddy V. 2003

机译：使用无损评估技术进行腐蚀损伤的检测和表征。
6. A Gradient-Field Pulsed Eddy Current Probe for Evaluation of Hidden Material Degradation in Conductive Structures Based on Lift-Off Invariance [O] . Yong Li, Haoqing Jing, Ilham Mukriz Zainal Abidin, 2017

机译：基于剥离不变性的梯度场脉冲涡流探头用于评估导电结构中的隐性材料降解
7. Use of non-destructive eddy current technique to detect simulated corrosion of aircraft structures [O] . M. Janovec, J. Čerňan, F. Škultéty 2020

机译：使用非破坏性涡流技术检测飞机结构的模拟腐蚀
8. NDE (Non-Destructive Evaluation) Round Robin. The Evaluation of NDE Techniques for Determining Offshore Structures Integrity Appendices [R] . Dame, R. E. , Warren, H. A. 1983

机译：NDE（非破坏性评估）循环法。确定海上结构完整性附录的NDE技术评估

Pulse-modulation-based eddy current technique for non-destructive evaluation of conductive structures with subsurface corrosion

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