Dynamic detection and recognition of welded defects based on magneto-optical imaging

Xiang-dong GAO; Chong-zhou LAN; Zi-qin CHEN; De-yong YOU; Guo-hua LI

doi:10.3788/OPE.20172505.1135

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Dynamic detection and recognition of welded defects based on magneto-optical imaging

Modern Applied Optics | 更新时间：2020-07-07

- Dynamic detection and recognition of welded defects based on magneto-optical imaging
- Optics and Precision Engineering Vol. 25, Issue 5, Pages: 1135-1141(2017)
- 作者机构：
  
  广东工业大学机电工程学院, 广东广州 510006
- 作者简介：
- 基金信息：
- DOI：10.3788/OPE.20172505.1135
  CLC： TG441.7
- Received：02 January 2017，
  
  Accepted：18 February 2017，
  
  Published：25 May 2017
- 稿件说明：
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Xiang-dong GAO, Chong-zhou LAN, Zi-qin CHEN, et al. Dynamic detection and recognition of welded defects based on magneto-optical imaging[J]. Optics and precision engineering, 2017, 25(5): 1135-1141.
DOI：

Xiang-dong GAO, Chong-zhou LAN, Zi-qin CHEN, et al. Dynamic detection and recognition of welded defects based on magneto-optical imaging[J]. Optics and precision engineering, 2017, 25(5): 1135-1141. DOI： 10.3788/OPE.20172505.1135.

摘要

为了实现焊接缺陷的自动检测，研究一种交变磁场激励下焊缝表面及亚表面缺陷的磁光成像动态无损检测方法。分析了基于法拉第磁致旋光效应的焊接缺陷磁光成像机理，并结合交变磁场原理推导出励磁变化与动态磁光成像的关系。探索低碳钢板的亚表面焊缝磁光成像特征试验，验证了所提方法可用于检测焊缝亚表面的未熔合缺陷。最后对高强钢焊缝特征的动态磁光图像进行分析，采用主成分分析法和支持向量机（PCA-SVM）模式识别方法建立了焊接缺陷分类模型。试验结果表明，所提方法可以识别高强钢焊件中的焊缝特征（未熔透、裂纹、凹坑和无缺陷），缺陷分类模型的整体识别率达到92.6%，能够实现焊缝表面及亚表面缺陷的自动检测。

Abstract

To realize automatic inspection of welded defects

a dynamic magneto-optical imaging non-destructive detection of weld surface and subsurface defects under alternating magnetic field excitation was researched. The welded defect magneto-optical imaging mechanism based on Faraday magneto optical effect was analyzed and employed to derive the relationship between excitation variation and dynamic magneto-optical imaging by combining with alternating magnetic field principle. The subsurface weld magneto-optical imaging feature test of low-carbon steel was investigated

verifying that the proposed method could be used to detect incomplete penetration defects of weld surface. Finally

dynamic magneto-optical image of high-strength steel weld feature was analyzed and weld defect classification model was constructed through Principal Component Analysis and Support Vector Machine (PCA-SVM) mode recognition method. The result shows that the proposed method can recognize weld features (penetration

crack

sag and perfectness) in high-strength steel weldment with the entire recognition rate of defect classification model reaches to 92.6%

subsequently the automatic inspection of weld surface and subsurface defects can be realized.

关键词

Keywords

references

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