Modeling and Optimization of Bobbin Friction Stir Welding for AA6061-T6 alloy Utilizing Response Surface Methodology

S. Amin, Mohannad Yousif Hanna, Alhamza Farooq Mohamed
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引用次数: 1

Abstract

Bobbin friction stir welding (BFSW) is special kind of friction stir welding. This investigation aims to develop empirical models through mathematical relationships between the welding process parameters and mechanical properties of Aluminum alloy AA6061-T6 welded joint created by using bobbin tool and to find the optimum welding parameters. The welding speed range (40-200 mm/min) and rotational speed range (340-930 rpm) were utilized (as the used input factors) to find their effects on elongation, tensile strength and maximum bending force as the main responses. These models were built using Design of Experiment (DOE) software „version 10‟ with Response Surface Methodology (RSM) technique. The models adequacy were tested via the (ANOVA) analysis. The obtained models appeared that as the welding speed or rotational speed increases, the elongation, tensile strength and maximum bending force of the welded joint firstly rise to a maximum value and then drop. The optimum welding parameters were rotational speed (623.949 rpm) and welding speed (128.795 mm/min) with (6.33%), (204 MPa) and (6.216 KN) of elongation, tensile strength and maximum bending force, respectively. A proper harmonization was obtained between the models predicted results and the optimized ones with actual trial with 95% level of confidence.
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基于响应面法的AA6061-T6合金筒管搅拌摩擦焊接建模与优化
筒管搅拌摩擦焊是一种特殊的搅拌摩擦焊。本研究旨在通过线轴工具焊接铝合金AA6061-T6焊接接头的焊接工艺参数与力学性能之间的数学关系,建立经验模型,寻找最佳焊接参数。以焊接速度范围(40 ~ 200 mm/min)和转速范围(340 ~ 930 rpm)作为输入因子,研究其对伸长率、抗拉强度和最大弯曲力的主要影响。采用响应面法(RSM)技术,利用实验设计(DOE)软件“version 10”建立模型。通过方差分析检验模型的充分性。得到的模型表明,随着焊接速度或转速的增加,焊接接头的伸长率、抗拉强度和最大弯曲力先达到最大值后下降。最佳焊接参数为转速(623.949 rpm)和焊接速度(128.795 mm/min),伸长率(6.33%)、抗拉强度(204 MPa)和最大弯曲力(6.216 KN)。模型预测结果与实际试验的优化结果吻合良好,置信度达95%。
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