Accurate finite element model of equiaxed-grain engineering material for ultrasonic inspection

2014 IEEE International Ultrasonics Symposium Pub Date : 2014-10-23 DOI:10.1109/ULTSYM.2014.0337

Bo Xiao, R. O’Leary, A. Gachagan, Wenqi Li, T. Burnett

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引用次数: 2

Abstract

Finite element (FE) simulation of grained material with equiaxed grain distribution is of interest for the virtual prototyping of array structures and the assessment of signal processing algorithms. Construction of such models can be computationally intensive due to the large number of crystallographic orientations required to represent the material. This paper concentrates on analysis and processing of orientation data in order to establish a computationally efficient 2D FE model whilst maintaining appropriate accuracy of the grained structure. Two approaches for orientation processing are proposed and their performances are compared. Parametric studies show that the trade-off between computational overhead and model accuracy will reach the optimal point when Euler space is segmented with a bin size of 15 degree per Euler phase. A transducer array is then incorporated into the FE model to generate B-scan image of the material. The image is compared with experimental equivalent for FE model validation purpose. The minor difference of images proves that the constructed FE model is accurate, highlighting the potential of the proposed methods for application on other equiaxed-grain materials.

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等轴晶粒工程材料超声检测的精确有限元模型

具有等轴晶粒分布的颗粒材料的有限元模拟对于阵列结构的虚拟样机和信号处理算法的评估具有重要意义。由于需要大量的晶体学取向来表示材料，因此这种模型的构建可能需要大量的计算。本文主要对定向数据进行分析和处理，以建立计算效率高的二维有限元模型，同时保持颗粒结构的适当精度。提出了两种定位处理方法，并对其性能进行了比较。参数研究表明，当欧拉空间以每个欧拉相位15度的bin大小分割时，计算开销和模型精度之间的权衡将达到最优点。然后将换能器阵列整合到有限元模型中以生成材料的b扫描图像。将图像与实验等效图像进行对比，以验证有限元模型的有效性。图像的微小差异证明了所构建的有限元模型是准确的，突出了所提出的方法在其他等轴晶粒材料上的应用潜力。

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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2014 IEEE International Ultrasonics Symposium

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