多通道低频电磁传感器的仿真及优化
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TH878TG115.28

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国家重点研发计划(2017YFF0209703)、国家自然科学基金(51865033)项目资助


Simulation and optimization of multichannel low frequency electromagnetic sensor
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    摘要:

    针对金属板构件内外壁损伤的检测问题,通过数值仿真与试验优化的方法,研制了一种适用于金属板构件内外壁损伤缺陷检测的多通道低频电磁传感器。建立了低频电磁检测三维有限元仿真计算模型,研究当圆形线圈切向放置在金属板导体上方时对缺陷的检测能力。进行对比试验,优化激励线圈匝数、检测线圈内径、高度等影响传感器灵敏度的参数,通过对含有人工缺陷金属板的检测验证了传感器的灵敏度与实用性。结果表明,研制的多通道低频电磁传感器可以实现对12 mm埋深96 mm的304不锈钢缺陷及12 mm埋深8 mm的20#碳钢缺陷的有效检测。

    Abstract:

    To detect the damage of inner and outer walls of metal plate members, a multichannel lowfrequency electromagnetic sensor designed by means of numerical simulation and experimental optimization. In this study, a threedimensional finite element simulation model of lowfrequency electromagnetic detection is formulated. In this way, the defect detection capability of circular coil placed tangentially over metal plate conductor can be studied. The comparative test is conducted to optimize the number of turns of the excitation coil, the inner diameter and the height of the detection coil, and other parameters, which affect the sensitivity of the sensor. The sensitivity and practicability of the sensor are evaluated by detecting artificial defects contained in the metal plate. Experimental results show that the multichannel lowfrequency electromagnetic sensor can effectively detect the defect of 304 stainless steel with 12 mm buried depth of 96 mm and 20# carbon steel with 12 mm buried depth of 8 mm.

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余亚东,宋凯,李光海,陆新元,丁泽宜.多通道低频电磁传感器的仿真及优化[J].仪器仪表学报,2019,40(10):19-27

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  • 在线发布日期: 2022-03-09
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