Tensile property and microstructural characterization of fractured joints of rotary frictional welded similar and dissimilar metals

2023 International Conference on Science, Engineering and Business for Sustainable Development Goals (SEB-SDG) Pub Date : 2023-04-05 DOI:10.1109/SEB-SDG57117.2023.10124574

P. Ikubanni, O. Agboola, A. A. Adeleke, Charisma-Sylvii Odogwu, Destiny Chukwumati, T. Adekanye

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Abstract

Recent manufacturing techniques have categorized Friction welding as a common type of welding. In this study, the tensile properties of the welded similar and dissimilar joints and the microstructure of the fractured surfaces were investigated. The metals are stainless steel (SS304) (SS), mild steel (MS), and aluminium (AA6063) (AL). The experiments are done considering the diameter of the materials and the speed of rotation of the spindle. The results revealed dissimilar joint of MS and SS gave the highest strength and rigidity values while the dissimilar joint of MS and AL was the least. The micrographs of the fractured surfaces revealed ductile fracture mechanism for all the samples except for the samples with MS and AL joint. The variations in the ductility of the dissimilar welds are connected to the obtained weak and strong joints of the metals. More so, the fractured point was a bit far from the interface region of the metals.

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同类和异种金属旋转摩擦焊断裂接头的拉伸性能和显微组织表征

最近的制造技术已经将摩擦焊归类为一种常见的焊接类型。研究了异种接头和相似接头焊接后的拉伸性能及断口组织。金属是不锈钢(SS304) (SS)，低碳钢(MS)和铝(AA6063) (AL)。实验考虑了材料直径和主轴转速。结果表明，MS和SS异种关节的强度和刚度值最高，MS和AL异种关节的强度和刚度值最低。断口形貌显微图显示，除MS和AL接头外，其余试样均表现出韧性断裂机制。不同焊缝的延展性变化与所获得的金属的弱接头和强接头有关。更重要的是，断裂点离金属的界面区域有点远。

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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2023 International Conference on Science, Engineering and Business for Sustainable Development Goals (SEB-SDG)

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