Unravelling the ultrasonic effect on residual stress and microstructure in dissimilar ultrasonic-assisted friction stir welding of Al/Mg alloys

IF 14 1区工程技术 Q1 ENGINEERING, MANUFACTURING

International Journal of Machine Tools & Manufacture Pub Date : 2023-03-01 DOI:10.1016/j.ijmachtools.2023.104004

Najib Ahmad Muhammad , Peihao Geng , ChuanSong Wu , Ninshu Ma

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引用次数: 12

Abstract

An in-depth knowledge and understanding of residual stress in dissimilar ultrasonic vibration-assisted friction stir welding (UVaFSW) are crucial for the performance evaluation of multimaterial structure designs; however, extensive research is still lacking. The present study evaluated the residual stress of dissimilar aluminium (Al)/magnesium (Mg) alloy joints produced by traditional FSW and UVaFSW to elucidate the ultrasonic effect mechanism with the aid of process simulation and microstructural evaluation. The weld surficial residual stress measured by X-ray diffraction (XRD) using the cos α method indicated the generation of predominantly compressive stress in UVaFSW welds. In agreement with the XRD measurements, the stress maps evaluated using the contour method (CM) exhibited an expanded compressive stress region and a mitigated tensile stress region in the UVaFSW welds. The Al/Mg interfacial mismatch of thermal expansion led to a tensile stress state on the Mg side and a compressive stress state on the Al side near the Al/Mg interface. The maximum compressive stress in the UVaFSW weld was ∼100 MPa higher than that in the FSW weld. The ultrasonic effect proficiently reduced the layer thicknesses of the intermetallic compounds (IMCs), promoting grain recrystallisation behaviour due to improved material transfer and mixing. Consequently, more homogeneous hardness distributions and improved tensile properties were formed in UVaFSW welds. However, ultrasonic vibration had an insignificant effect on the density of geometrically necessary dislocations and stored strain energy, indicating limited effects on microscopic residual stress in the studied condition. The ultrasonic vibration was found to positively mitigate residual tensile stresses and macroscopic distortion by increasing the temperature and encouraging material mixing within the stirred zone, as well as enhancing the stress interaction of the Al/Mg interface related to thinner IMCs. The UVaFSW has considerable potential to in-process co-optimise residual stress and microstructure for dissimilar Al/Mg welds.

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研究了超声辅助搅拌摩擦焊对Al/Mg合金残余应力和组织的影响

深入了解不同超声振动辅助搅拌摩擦焊接(UVaFSW)残余应力对多材料结构设计的性能评估至关重要;然而，广泛的研究仍然缺乏。本研究通过对传统FSW和UVaFSW制备的异种铝/镁合金接头的残余应力进行分析，通过过程模拟和显微组织评价来阐明超声作用机理。采用cos α法对焊缝表面残余应力进行了x射线衍射(XRD)测试，结果表明UVaFSW焊缝表面残余应力以压应力为主。与XRD测量结果一致，采用等高线法(CM)评估的应力图显示，UVaFSW焊缝的压应力区域扩大，拉应力区域减弱。Al/Mg界面热膨胀失配导致Al/Mg界面附近的Mg侧出现拉应力状态，Al侧出现压应力状态。UVaFSW焊缝的最大压应力比FSW焊缝高~ 100 MPa。超声效应有效地降低了金属间化合物(IMCs)的层厚，由于改善了材料转移和混合，促进了晶粒的再结晶行为。因此，UVaFSW焊缝的硬度分布更加均匀，拉伸性能得到改善。然而，超声振动对几何必要位错密度和存储应变能的影响不显著，表明在研究条件下，超声振动对微观残余应力的影响有限。超声振动通过提高温度和促进搅拌区内的材料混合，以及增强与薄IMCs相关的Al/Mg界面的应力相互作用，积极减轻残余拉伸应力和宏观变形。UVaFSW具有相当大的潜力，可以在过程中共同优化不同Al/Mg焊缝的残余应力和微观结构。

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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来源期刊

International Journal of Machine Tools & Manufacture 工程技术-工程：机械

CiteScore

25.70

自引率

10.00%

发文量

审稿时长

18 days

期刊介绍： The International Journal of Machine Tools and Manufacture is dedicated to advancing scientific comprehension of the fundamental mechanics involved in processes and machines utilized in the manufacturing of engineering components. While the primary focus is on metals, the journal also explores applications in composites, ceramics, and other structural or functional materials. The coverage includes a diverse range of topics: - Essential mechanics of processes involving material removal, accretion, and deformation, encompassing solid, semi-solid, or particulate forms. - Significant scientific advancements in existing or new processes and machines. - In-depth characterization of workpiece materials (structure/surfaces) through advanced techniques (e.g., SEM, EDS, TEM, EBSD, AES, Raman spectroscopy) to unveil new phenomenological aspects governing manufacturing processes. - Tool design, utilization, and comprehensive studies of failure mechanisms. - Innovative concepts of machine tools, fixtures, and tool holders supported by modeling and demonstrations relevant to manufacturing processes within the journal's scope. - Novel scientific contributions exploring interactions between the machine tool, control system, software design, and processes. - Studies elucidating specific mechanisms governing niche processes (e.g., ultra-high precision, nano/atomic level manufacturing with either mechanical or non-mechanical "tools"). - Innovative approaches, underpinned by thorough scientific analysis, addressing emerging or breakthrough processes (e.g., bio-inspired manufacturing) and/or applications (e.g., ultra-high precision optics).