11D-2 Total Focussing Method for Volumetric Imaging in Immersion Non Destructive Evaluation

2007 IEEE Ultrasonics Symposium Proceedings Pub Date : 2007-12-26 DOI:10.1109/ULTSYM.2007.259

A. Tweedie, R. O’Leary, G. Harvey, A. Gachagan, C. Holmes, P. Wilcox, B. Drinkwater

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引用次数: 6

Abstract

This paper describes the use of a 550 (25times22) element 2 MHz 2D piezoelectric composite array in immersion mode to image an aluminum test block containing a collection of artificial defects. The defects included a 1 mm diameter side-drilled hole, a collection of 1 mm slot defects with varying degrees of skew to the normal and a flat bottomed hole. The data collection was carried out using the full matrix capture; a scanning procedure was developed to allow the operation of the large element count array through a conventional 64-channel phased array controller. A 3D TFM algorithm capable of imaging in a dual media environment was implemented in MATLAB for the offline processing the raw scan data. This algorithm facilitates the creation of 3D images of defects while accounting for refraction effects at material boundaries. In each of the test samples interrogated the defects, and their spatial position, are readily identified using TFM. Defect directional information has been characterized using VTFM for defect exhibiting angles up to and including 45deg of skew.

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11D-2浸泡无损评价中体积成像的全聚焦方法

本文描述了在浸没模式下使用550 (25times22)单元2mhz二维压电复合阵列对含有人工缺陷集合的铝测试块进行成像。缺陷包括1毫米直径的侧钻孔，1毫米的槽缺陷集合，不同程度地向正常倾斜，以及一个平底孔。数据采集采用全矩阵采集;开发了一种扫描程序，允许通过传统的64通道相控阵控制器操作大元素计数阵列。在MATLAB中实现了一种能够在双介质环境下成像的三维TFM算法，对原始扫描数据进行脱机处理。该算法有利于缺陷的三维图像的创建，同时考虑到材料边界的折射效应。在每个被询问的测试样本中，缺陷及其空间位置都很容易用TFM识别出来。缺陷方向信息已被表征使用VTFM缺陷显示的角度高达并包括45度的倾斜。

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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2007 IEEE Ultrasonics Symposium Proceedings

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