期刊文献+

基于频谱分析的涡流探头工作频率确定方法及检测系统研究

The Research of Method and System to Determine the Operating Frequency of Eddy Current Testing Based on Spectrum Analysis
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摘要 涡流检测对某一被测量的检测灵敏度很大程度上依赖于试验频率。文章提出了一种基于频谱分析的涡流探头最佳试验频率获取方法,设计了数字化涡流阻抗检测系统。在该系统中,激励信号具备扫频输出和单频输出功能,探头检测信号拾取后数字化分解为实部和虚部。借助该系统,可方便、快捷、实时地获取每一探头的阻抗频谱,根据实际需要分析获得最佳试验频率。 The detection sensitivity of eddy current testing is dependent on operating frequency. In this paper, a method was presented to determine the best operating frequency of eddy current testing based on spectrum analysis, and the digital eddy current impedance inspection system was designed. In this system, the excitation signal with the frequency sweep output and single output was developed, and the probe signal was picked up and demodulated for the real and imaginary parts, The real-time impedance spectrum of each probe can be swiftly accessed with the system, so the best operating frequency can be determined according to actual needs.
出处 《无损检测》 2012年第10期42-45,共4页 Nondestructive Testing
基金 江西省自然科学基金资助项目(2008GZW008) 江西省教育厅科技资助项目(GJJ12407)
关键词 涡流检测 数字化阻抗分解 频谱分析 Eddy current testing Digital impedance demodulate Spectrum analysis
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参考文献3

  • 1蒋齐密,张新访,刘土光,周济.电涡流检测系统的参数设置依据[J].无损检测,2001,23(3):100-102. 被引量:8
  • 2美国无损检}010学会.美国无损检测手册(电磁卷)[M].上海:世界图书出版社,1996.
  • 3Tomasz Chady, Masato Enokizono, Ryszard Sikora. Neural network models of eddy current multi-frequen cy system for nondestructive resting[J]. IEEE Trans actions on Magnetics, 2000,36 (4) : 1724-- 1727.

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