Defect Detection in Aluminium with an Eddy Currents Sensor

E. Ramírez-Pacheco, J. H. Espina-Hernandez, F. Caleyo, J. Hallen
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引用次数: 11

Abstract

The purpose of this paper is to present an eddy current testing technique for surface defect detection in conducting materials using a giant magneto resistive (GMR) sensor. A flat coil is used to produce an alternate magnetic field, which gives rise to eddy currents in the material under test. The GMR sensor with the coil placed on top of it is mounted in a holder, which is moved over the surface of the metal plate using an XY table. Three aluminium plates were used with defects having nominals depths of 2, 4, 6, and 8 mm and widths of 0.6, 1 and 1.4 mm, respectively. The defects were scanned with the sensing axis perpendicular to the defect length. The GMR output voltage depends on the width and depth of the defects. Two parameters extracted from the GMR output voltage signal are obtained and a simple correlation between the defects dimensions and the GMR output voltage is proposed.
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用涡流传感器检测铝的缺陷
本文的目的是提出一种利用巨磁阻传感器检测导电材料表面缺陷的涡流检测技术。扁平线圈用来产生交替磁场,在被测材料中产生涡流。GMR传感器与线圈放置在它的顶部被安装在一个持有人,这是移动在金属板的表面使用一个XY表。使用了3块铝板,缺陷的标称深度分别为2,4,6和8mm,宽度分别为0.6,1和1.4 mm。用垂直于缺陷长度的传感轴对缺陷进行扫描。GMR输出电压取决于缺陷的宽度和深度。从GMR输出电压信号中提取了两个参数,并提出了缺陷尺寸与GMR输出电压之间的简单相关性。
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