Stress Intensity Factor calculation from displacement fields

Fracture and Structural Integrity Pub Date : 2017-06-28 DOI:10.3221/IGF-ESIS.41.36

S. Beretta, L. Patriarca, S. Rabbolini

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引用次数: 7

Abstract

In the last two decades, visual image techniques such as Digital Image Correlation (DIC) enabled to experimentally determine the crack tip displacement and strain fields at small scales. The displacements are tracked during loading, and parameters as the Stress Intensity Factor (SIF), opening and closing loads, T-stress can be readily measured. In particular, the SIFs and the T-stress can be obtained by fitting the analytical equation of the Williamstype expansion with the experimentally-determined displacement fields. The results in terms of fracture mechanics parameters strictly depend on the dimension of the area considered around the crack tip in conjunction with the crack length, the maximum SIF (and thus the plastic tip radius), and the number of terms to be considered in the Williams-type expansion. This work focuses in understanding the accuracy of the SIF calculation based on these factors. The study is based on Finite Element Analysis simulations where purely elastic material behavior is considered. The accuracy of the estimation of the SIF is investigated and a guide-line is provided to properly set the DIC measurements. The analysis is then experimentally validated for crack closure measurements adopting the SENT specimen geometry.

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从位移场计算应力强度因子

近二十年来，数字图像相关(DIC)等视觉图像技术使实验测定小尺度裂纹尖端位移场和应变场成为可能。在加载过程中跟踪位移，并且可以很容易地测量应力强度因子(SIF)、开闭载荷、t应力等参数。其中SIFs和t应力可以通过将威廉斯式展开的解析方程与实验确定的位移场拟合得到。断裂力学参数方面的结果严格依赖于裂纹尖端周围考虑的区域尺寸、裂纹长度、最大SIF(即塑性尖端半径)以及williams型扩展中要考虑的项数。这项工作的重点是了解基于这些因素的SIF计算的准确性。该研究是基于有限元分析模拟，其中考虑了纯弹性材料的行为。研究了SIF估计的准确性，并提供了正确设置DIC测量的指导方针。然后对采用SENT试样几何形状的裂纹闭合测量进行了实验验证。

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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Fracture and Structural Integrity

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