NON-INVASIVE ANALYSIS AND VISUALIZATION OF OBJECTS FROM FSW AlSi9Mg/2017A ALUMINUM ALLOY JOINTS

Metallurgy and Foundry Engineering Pub Date : 2018-01-01 DOI:10.7494/mafe.2018.44.3.145

A. Wójcicka, K. Mroczka, M. Kowalski

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Abstract

Friction stir welding (FSW) technology allows for the welding of materials that differ in their chemical compositions, microstructures, and properties. When selecting the parameters, it is necessary to analyze the structure of a weld and eliminate the defects. The use of X-ray microtomography creates the possibility of precise imaging of a joint structure – especially when it contains defects (voids). The tests were carried out on an FSW joint made with both 2017A and AlSi9Mg aluminum alloys. The macrostructure was cross-sectional, and a defect was found in the middle part of the joint and on the advancing side. We used a conventional method of observation light microscopy. Then, an analysis was performed using X-ray microtomography, which revealed the shape of the defect in 3D. Individual cross-sections were extracted, which enabled us to measure the geometric quantities. A dependence was found for the shape of the defect on the welding parameters and the variability of its construction. The usefulness of this advanced material imaging technology for the analysis of FSW welds has been confirmed.

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FSW AlSi9Mg/2017A铝合金接头中物体的无创分析与可视化

搅拌摩擦焊(FSW)技术允许焊接化学成分、微观结构和性能不同的材料。在选择参数时，必须对焊缝的结构进行分析，消除缺陷。使用x射线显微断层成像技术可以对关节结构进行精确成像，特别是当关节结构含有缺陷(空洞)时。试验是在由2017A和AlSi9Mg铝合金制成的FSW接头上进行的。宏观组织为横截面，在接头中部和前进侧发现缺陷。我们采用常规的光学显微镜观察方法。然后，使用x射线显微断层扫描进行分析，揭示了三维缺陷的形状。单独的横截面被提取出来，这使我们能够测量几何数量。发现缺陷的形状与焊接参数及其结构的可变性有关。这种先进的材料成像技术对FSW焊缝分析的有用性已经得到证实。

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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Metallurgy and Foundry Engineering

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