Tensile and wear behaviour of friction stir welded AA5052 and AA6101-T6 aluminium alloys: effect of welding parameters

G. Kasirajan, Sathish Rengarajan, R. A. Kumar, Raghav G R, V. S. Rao, K. Nagarajan
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引用次数: 11

Abstract

To improve the performance and effectiveness of cost, constructing lightweight structure is the important factor for automobile, naval and aerospace industries. AA5052 and AA6101-T6 aluminium alloys are widely applied in transport industries, due to their lightweight and high strength and hence, joining of these two are unavoidable. Friction stir welding is an unconventional welding method, which is developed for constructing lightweight structures. This work describes the detailed study of friction stir welded dissimilar AA5052 and AA6101-T6 alloys. AA5052 and AA6101-T6 plates are welded with rotation rates of 765–1400 rpm and offset distances at advancing side of 0–2 mm. For this purpose, four levels of welding parameters based on Taguchi L16 orthogonal array are chosen. To determine the optimum combinational levels and identify the effect of above-mentioned parameters on tensile and wear properties, Signal to Noise ratio and ANOVA respectively are used. From the results, it is observed that the combination of 1 mm offset distance at advancing side and 1400 rpm rotating speed produces better tensile and wear properties, which is due to high heat generation, sufficient flow of materials and balanced precipitation and strain hardening effects. On the other hand, the combination of 2 mm tool offset at advancing side and 765 rpm rotational rate exhibits poor properties, which is associated with low heat input, defects formation, precipitate coarsening and lesser strain hardening effects.
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搅拌摩擦焊接AA5052和AA6101-T6铝合金的拉伸磨损性能:焊接参数的影响
为了提高性能和成本效益,构建轻量化结构是汽车、船舶和航空航天工业的重要因素。AA5052和AA6101-T6铝合金由于其轻量化和高强度的特点,在交通运输行业得到了广泛的应用,因此两者的接合是不可避免的。搅拌摩擦焊是一种针对轻量化结构而发展起来的非传统焊接方法。本文对不同合金AA5052和AA6101-T6的搅拌摩擦焊接进行了详细的研究。AA5052和AA6101-T6板焊接,转速为765 - 1400rpm,推进侧偏移距离为0 - 2mm。为此,选取了基于田口L16正交阵列的4级焊接参数。为了确定最佳组合水平,并确定上述参数对拉伸和磨损性能的影响,分别采用信噪比和方差分析。结果表明,在推进侧偏移距离为1 mm、转速为1400 rpm时,由于产生的热量高、材料流动充分、析出和应变硬化效果平衡,合金的拉伸和磨损性能较好。另一方面,推进侧2mm刀具偏移量和765 rpm转速的组合表现出较差的性能,这与低热量输入、缺陷形成、沉淀粗化和较小的应变硬化效应有关。
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