Numerical simulation of ultrasonic guided waves in welded joint

2013 International Conference on Materials for Renewable Energy and Environment Pub Date : 2013-08-01 DOI:10.1109/ICMREE.2013.6893811

Hongyuan Li, Hong Xu

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引用次数: 2

Abstract

In order to inspect the long weld efficiently, the weld-guided ultrasonic waves are studied in this paper. By using the finite element method, the propagations of the compression and the shear weld-guided modes are studied and compared. The energy of the two modes along and across the weld are analyzed using Hilbert envelopes. The results show that the shear weld-guided mode decays less than the compression mode along the weld, and the energy of the shear mode is more concentrated in the weld and heat-affected zone compared to the compression mode, which means the shear mode is more suitable for inspecting the weld. The interaction of the shear mode and the damage in the weld and the heat-affected zone is also studied. The results show that the damage reflected signal in the weld can be used as the characteristics signal for detecting the damage. The damage localization capability of the shear weld-guided mode is then verified by a case study. The works in this paper show that the damage in the long weld and its heat-affected zone can be detected and located using the shear weld-guided mode from one single transducer position.

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焊接接头超声导波的数值模拟

为了有效地检测长焊缝，本文对焊缝引导超声波进行了研究。采用有限元方法，对焊接过程中压缩导焊模和剪切导焊模的传播规律进行了研究和比较。利用希尔伯特包络分析了沿焊缝和跨焊缝两种模态的能量。结果表明:剪切导焊模式的沿焊缝衰减小于压缩模式，且剪切模式的能量比压缩模式更集中在焊缝和热影响区，更适合焊缝检测;研究了剪切模式与焊缝及热影响区损伤的相互作用。结果表明，焊缝中的损伤反射信号可以作为检测损伤的特征信号。通过实例验证了剪切焊导模式的损伤定位能力。本文的工作表明，利用剪切导焊模式可以从单个传感器位置检测和定位长焊缝及其热影响区的损伤。

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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2013 International Conference on Materials for Renewable Energy and Environment

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