基于非晶态MI传感器和神经网络的双轴MFLT平行六面体缺陷三维评价

M. Abe, S. Biwa, E. Matsumoto
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引用次数: 2

摘要

本文尝试利用神经网络的双轴漏磁检测方法,评估平行六面体缺陷的三维形状及其位置,即水平位置和定位表面。试样是受磁场作用的磁性材料,试样中的磁通量在缺陷附近泄漏。用非晶磁阻抗传感器测量了漏磁管的正切分量和法向分量的双轴漏磁。该传感器具有宽测量范围、高灵敏度和高空间分辨率等特点,适用于MFLT的精确定性估计。利用近似解析法从每条扫描线上的一维双轴MFL分布中提取特征量。缺陷沿扫描线的水平位置由一些cq表示。神经网络用于预测每条扫描线下缺陷截面的形状,即宽度,深度,包括CQs定位的表面。通过沿着平行于试样表面的几条扫描线重复类似的过程,我们可以识别缺陷的三维形状。结果表明,该神经网络能够以较好的精度评估未知缺陷的三维形状。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Three dimensional evaluation of parallelepiped flaw using amorphous MI sensor and neural network in biaxial MFLT
In this paper, we attempt to evaluate the three dimensional shape of a parallelepiped flaw including its location, i.e., the horizontal position and the located surface, by biaxial Magnetic Flux Leakage Testing with neural network. The specimen is a magnetic material subjected to the magnetic field, and the magnetic flux in the specimen leaks near the flaw. We measure the biaxial Magnetic Flux Leakage, i.e., the tangential and the normal components of MFL by an amorphous Magneto-Impedance sensor. The amorphous MI sensor has the wide measurement range, high sensitivity and high spacial resolution, so that it is suitable for precise qualitative estimation by MFLT. We extract Characteristic Quantities from the one dimensional biaxial MFL distributions on each scanning line by Approximate Analytical Method. The horizontal position of a flaw along the scanning line is presented by some of the CQs. Neural network is used to predict the shape of the cross section of the flaw beneath each scanning line, i.e., the width, the depth including the located surface from the CQs. By repeating a similar process along several scanning lines parallel to the specimen surface, we can identify the three dimensional shape of the flaw. The neural network is found to be able to evaluate the three dimensional shape of unknown flaws in a good accuracy.
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