一种用于无损评价磁光成像的创新激励线圈设计

2013 IEEE International Instrumentation and Measurement Technology Conference (I2MTC) Pub Date : 2013-05-06 DOI:10.1109/I2MTC.2013.6555724

Yuhua Cheng, Xingmake Liu, Yiming Deng

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引用次数: 2

摘要

激光磁光显微镜(LMOM)系统基于涡流技术，其成像质量主要取决于激励效应，其中激励线圈被广泛采用作为一种激励装置，将其置于试样的检测表面之上。本文提出了一种新颖的励磁线圈设计，该设计可以在试样中产生一个线性涡流分布区域，从而使均匀的感应磁场在无缺陷的几何形状中平行于表面成为可能。由于检测到的正磁场仅由不连续面决定，并与感应主场解耦，因此缺陷成像的灵敏度将大大提高。本文对单矩形线圈和交叉放置线圈进行了研究，并将新设计的仿真结果与传统线圈设计结果进行了比较，明确验证了新设计的优点，并展示了新设计的LMOM在实现更好的图像分辨率和对比度方面的潜力。

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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An innovative exciting coil design for magneto-optic imaging in nondestructive evaluation

The laser-based magneto-optic microscopy (LMOM) system is based on eddy current technology and its image quality mainly depends on the incentive effects, where the excitation coil is widely adopted as an incentive device by placing it above the inspecting surface of the specimen. This paper proposed an innovative excitation coil design, which can generate a region of linear eddy current distribution in the specimen and consequently make the uniformly induced magnetic field possible and parallel to the surface in defect-free geometry. The sensitivity of defect imaging will be greatly enhanced since the detected normal magnetic field is only determined by the discontinuities and decoupled with the induced main field. A single rectangular coil and the cross placed coils are studied in this paper and simulation results of the new design were compared with the traditional coil design results, which clearly validated its advantages and demonstrated the potential of the new set up of LMOM to achieve better image resolution and contrast.

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2013 IEEE International Instrumentation and Measurement Technology Conference (I2MTC)

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