Simulation of Modified Absolute Arrival Time Technique for Measuring Surface Breaking Cracks

2018 IEEE Far East NDT New Technology & Application Forum (FENDT) Pub Date : 2018-07-01 DOI:10.1109/FENDT.2018.8681956

Xueping Jiang, J. Jia, X. Mao, Q. Han

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Abstract

Surface breaking cracks pose great risk to the security of steel structure equipment. It is very important to estimate the height and the orientation of surface breaking cracks accurately for the residual life evaluation of equipment. In this paper, a modified phased array ultrasonic absolute arrival time technique (AATT) for this purpose was proposed. It utilizes the absolute position of the tip diffraction echo and the corner reflection echo in a ultrasonic phased array S-scan image to estimate the crack height and the crack inclination angle. The height and the orientation of the surface breaking cracks was deduced with ray acoustic approximation. Both pencil approximation and Kirchhoff approximation were used to simulate the phased array ultrasonic S-scan image of the surface breaking cracks. The echo arrival time extracted from the S-scan image was used to calculate the height and the orientation of surface breaking cracks with AATT technique. The calculated result agree with the size of pre-set cracks in simulation. Proved that the AATT technique can be applied to measure the size of surface breaking cracks, especially in the testing from single side.

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修正绝对到达时间法测量表面断裂裂纹的模拟

表面断裂裂缝对钢结构设备的安全构成极大的威胁。准确估计表面断裂裂纹的高度和方向对设备的剩余寿命评估非常重要。为此，本文提出了一种改进的相控阵超声绝对到达时间技术。它利用超声相控阵s扫描图像中尖端衍射回波和角反射回波的绝对位置来估计裂纹高度和裂纹倾角。用射线声近似法推导了表面破裂裂纹的高度和方向。采用铅笔近似和Kirchhoff近似模拟了相控阵超声s扫描表面断裂裂纹的图像。利用s扫描图像提取的回波到达时间，利用AATT技术计算地表破裂裂缝的高度和方向。计算结果与模拟中预先设定的裂缝尺寸一致。证明了AATT技术可以应用于表面断裂裂纹尺寸的测量，特别是单面测试。

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2018 IEEE Far East NDT New Technology & Application Forum (FENDT)

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