Effect of Scanning Acceleration on the Leakage Signal in Magnetic Flux Leakage Type of Non-destructive Testing

被引:0
作者
Lintao Zhang
Ian M. Cameron
Paul D. Ledger
Fawzi Belblidia
Neil R. Pearson
Peter Charlton
Johann Sienz
机构
[1] Swansea University,Materials Advanced Characterisation Centre (MACH1), College of Engineering
[2] Swansea University,Advanced Sustainable Manufacturing Technologies (ASTUTE 2020) Operation, College of Engineering
[3] Swansea University,College of Engineering
[4] Eddyfi (UK) Ltd,University of Wales Trinity Saint David
[5] Clos Llyn Cwm,undefined
[6] Mount Pleasant Campus,undefined
来源
Journal of Nondestructive Evaluation | 2023年 / 42卷
关键词
Non-destructive Testing (NDT); Magnetic flux leakge (MFL); Leakage signal (peak to peak); Scanning acceleration;
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摘要
This work investigates the influence of acceleration on the leakage signal in magnetic flux leakage type of non-destructive testing. The research is addressed through both designed experiments and simulations. The results showed that the leakage signal, represented by using peak to peak value, decreases between 15.1% and 26.6% under acceleration. The simulation results indicated that the main reason for the decrease is due to the difference in the distortion of the magnetic field for cases with and without acceleration, which is the result of the different eddy current distributions in the specimen. The findings will help to allow the optimisation of a magnetic flux leakage system to ensure that main defect features can be measured more accurately during the machine acceleration phase of scanning. It also shows the importance of conducting measurements at constant velocity, wherever possible.
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