Evaluation of Depth Size Based on Layered Magnetization by Double-Sided Scanning for Internal Defects

Sensors (Basel, Switzerland) Pub Date : 2024-06-01 DOI:10.3390/s24113689

Zhiyang Deng, Dingkun Qian, Haifei Hong, Xiaochun Song, Yihua Kang

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Abstract

The quantitative evaluation of defects is extremely important, as it can avoid harm caused by underevaluation or losses caused by overestimation, especially for internal defects. The magnetic permeability perturbation testing (MPPT) method performs well for thick-walled steel pipes, but the burial depth of the defect is difficult to access directly from a single time-domain signal, which is not conducive to the evaluation of defects. In this paper, the phenomenon of layering of magnetization that occurs in ferromagnetic materials under an unsaturated magnetizing field is described. Different magnetization depths are achieved by applying step magnetization. The relationship curves between the magnetization characteristic currents and the magnetization depths are established by finite element simulations. The spatial properties of each layering can be detected by different magnetization layering. The upper and back boundaries of the defect are then localized by a double-sided scan to finally arrive at the depth size of the defect. Defects with depth size of 2 mm are evaluated experimentally. The maximum relative error is 5%.

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通过双面扫描评估基于层状磁化的内部缺陷深度尺寸

对缺陷进行定量评估极为重要，因为它可以避免因低估而造成的危害或因高估而造成的损失，尤其是对内部缺陷。磁导率扰动测试（MPPT）方法在厚壁钢管上表现良好，但缺陷的埋深很难从单一时域信号中直接获取，不利于缺陷的评估。本文描述了铁磁性材料在非饱和磁化场下发生的磁化分层现象。通过施加阶跃磁化实现了不同的磁化深度。通过有限元模拟建立了磁化特征电流与磁化深度之间的关系曲线。通过不同的磁化分层，可以检测到每个分层的空间特性。然后通过双面扫描定位缺陷的上边界和后边界，最终得出缺陷的深度尺寸。实验评估了深度为 2 毫米的缺陷。最大相对误差为 5%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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