Effect of Tool Shape and Insertion Depth on Joining Properties in Friction Stir Spot Welding of Aluminum Alloy/high-strength Steel Sheets

Journal of Korean Powder Metallurgy Institute Pub Date : 2024-02-28 DOI:10.4150/kpmi.2024.31.1.37

Su-Ho An, Young-Keun Jeong

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Abstract

Friction stir spot welding (FSSW) is a solid-state joining process and a rapidly growing dissimilar material welding technology for joining metallic alloys in the automotive industry. Welding tool shape and process conditions must be appropriately controlled to obtain high bonding characteristics. In this study, FSSW is performed on dissimilar materials AA5052-H32 aluminum alloy sheet and SPRC440 steel sheet, and the influence of the shape of joining tool and tool insertion depth during joining is investigated. A new intermetallic compound is produced at the aluminum and steel sheets joint. When the insertion depth of the tool is insufficient, the intermetallic compound between the two sheets did not form uniformly. As the insertion depth increased, the intermetallic compound layer become uniform and continuous. The joint specimen shows higher values of tensile shear load as the diameter and insertion depth of the tool increase. This shows that the uniform formation of the intermetallic compound strengthens the bonding force between the joining specimens and increases the tensile shear load.

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工具形状和插入深度对铝合金/高强度钢板摩擦搅拌点焊接合性能的影响

搅拌摩擦点焊（FSSW）是一种固态连接工艺，也是汽车工业中一种快速发展的异种材料焊接技术，用于连接金属合金。必须适当控制焊接工具的形状和工艺条件，才能获得较高的焊接特性。在本研究中，对异种材料 AA5052-H32 铝合金板和 SPRC440 钢板进行了全固态无缝焊接，并研究了焊接过程中焊接工具形状和工具插入深度的影响。铝板和钢板连接处产生了一种新的金属间化合物。当工具插入深度不够时，两片板材之间的金属间化合物形成不均匀。随着插入深度的增加，金属间化合物层变得均匀且连续。随着工具直径和插入深度的增加，接头试样显示出更高的拉伸剪切载荷值。这表明金属间化合物的均匀形成增强了连接试样之间的结合力，并提高了拉伸剪切载荷。

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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Journal of Korean Powder Metallurgy Institute

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