Detection of prefracture zones in structural materials by magnetic and optical methods

Yu. V. Khudorozhkova, S. M. Zadvorkin, S. V. Burov, I. Kamantsev
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Abstract

The study of the applicability of magnetic and optical methods to the detection of prefracture zones under fatigue degradation of structural materials is exemplified by the 09G2S steel. The regularities of changes in the signal of an attached fluxgate gradiometer with the increasing number of loading cycles have been revealed; namely, significant changes in the gradiometer readings on individual specimen surface areas prove to result from the formation of fracture zones. The change in the value of the coefficient of correlation among the speckle images is studied at different stages of cyclic testing. Speckle image heterogeneity is shown to appear due to fracture nucleation. Thus, the applicability of magnetic and speckle-interferometric methods to detecting prefracture zones in objects under cyclic loading is substantiated.
磁性和光学方法检测结构材料的断裂前区
以09G2S钢为例,研究了磁法和光学法在结构材料疲劳退化预断口检测中的适用性。揭示了附加磁通门梯度仪信号随加载次数增加而变化的规律;也就是说,单个试样表面梯度仪读数的显著变化证明是由断裂带的形成造成的。研究了不同循环测试阶段散斑图像间相关系数值的变化规律。由于断裂成核,出现了散斑图像的非均匀性。因此,证明了磁和散斑干涉方法在循环载荷下检测物体断裂前区域的适用性。
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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