Influence of Welding Parameter on Bead Geometry of Weld Metal in Submerged Arc Welding

S. Thakur, G. Goga, Avtar Singh
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引用次数: 1

Abstract

Submerged arc welding is generally used for fabrication large diameters line pipes, pressure vessels and wind turbines due to its high deposition rates, high-quality welds, ease of automation and low operation skills necessities. Submerged arc welding is characterized by a large number of process parameters influencing the performance of the output such as hardness two level and bead geometry, which subsequently affects the weld quality. In this research work, the effect of different welding parameters on drop geometry has been investigated. Four welding parameters specifically current, arc voltage, welding travel speed and nozzle-to-plate distance are selected. Mathematically model was developed from the data generated using two-level half factoring. The design expert 7 is implemented in order to find out significant and communication effect. It has been observed that width of the bead, penetration, reinforcement is an an increased with an an increase in welding current. The width of bead also an increases with an an increase in voltage but reinforcement and penetration decrease with an an increase in voltage. Nozzle to plate distance and welding speed produces very fewer effect on width of bead, penetration, and reinforcement.
埋弧焊中焊接参数对焊缝金属焊缝几何形状的影响
埋弧焊由于其沉积速率高、焊缝质量高、易于自动化和操作技能要求低等优点,通常用于制造大直径管线、压力容器和风力涡轮机。埋弧焊具有影响焊缝输出性能的大量工艺参数的特点,如硬度二级、焊头几何形状等,进而影响焊缝质量。研究了不同焊接参数对液滴几何形状的影响。选取了电流、电弧电压、焊接速度和喷嘴到板的距离四个焊接参数。利用两级半因子分解生成的数据,建立了数学模型。为了找出显著的沟通效果,实施了设计专家7。结果表明,焊头宽度、焊透、补强均随焊接电流的增大而增大。焊头宽度随电压的升高而增大,但强化度和穿透度随电压的升高而减小。喷嘴到板的距离和焊接速度对焊头宽度、焊透和补强的影响很小。
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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