Fast Quantitative Method to Detect the Cross-Sectional Loss of Wire Rope Defects

The loss of metallic area is the most important factor affecting the quality of wire ropes. Therefore, it is very important to detect the loss of metallic area values of wire rope defects quickly and accurately. At present, the main flux detection approach is one of the most effective methods, and t...

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Bibliographic Details
Published inIEEE transactions on instrumentation and measurement Vol. 70; pp. 1 - 11
Main Authors Zhang, Donglai, Zhang, Enchao, Pan, Shimin, Yan, Xiaolan, Gao, Wei
Format Journal Article
LanguageEnglish
Published New York IEEE 2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Cross-sections
Defects
Finite-element simulation
Flux density
leakage magnetic field (LMF)
Loss measurement
loss of metallic area
Magnetic cores
Magnetic flux
Magnetic flux density
Magnetic resonance imaging
main flux detection
Mathematical analysis
quantitative method
Saturation magnetization
Wire rope
Wires
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Summary:The loss of metallic area is the most important factor affecting the quality of wire ropes. Therefore, it is very important to detect the loss of metallic area values of wire rope defects quickly and accurately. At present, the main flux detection approach is one of the most effective methods, and the detection signal is related directly to the metal cross-sectional area of the wire rope. However, when the defect width is less than a specific value, the existence of the leakage magnetic field means that the amount of the magnetic flux change is not only related to the loss of metallic area of the defect but also has a complex nonlinear relationship with the defect width. The resulting calculation is highly complex and means that the loss of metallic area cannot be determined quickly and quantitatively. This article presents an in-depth study of the theoretical basis of magnetic flux detection, analyzes the problems of the main magnetic flux detection method and their causes, and proposes a method to improve main magnetic flux detection using the axial magnetic flux density. Simulation analysis and experimental results show that the method presented in this article can be used to calculate the loss of metallic area values of defects quickly and accurately without the need for complex calculation processes.
ISSN:0018-9456
1557-9662
DOI:10.1109/TIM.2021.3054695