دنیای جوشکاری

دنیایی از مطالب جوشکاری و بازرسی فنی

دنیای جوشکاری

دنیایی از مطالب جوشکاری و بازرسی فنی

جوشکاری اصطکاکی-تلاطمی آلیاژ آلومینیوم به فولاد زنگ‌نزن

Friction stir welding of dissimilar Al 6013-T4 To

X5CrNi18-10 stainless steel

جوشکاری اصطکاکی-تلاطمی غیرهمجنس Al 6013-T4 به فولاد زنگ‌نزن X5CrNi  

ABSTRACT

The joining of dissimilar Al 6013-T4 alloy and X5CrNi18-10 stainless steel was carried out using friction stir welding (FSR) technique. The microstructure, hardness and fatigue properties of fiction stir welded 6013 aluminium alloy to stainless steel have been investigated. Optical microscopy was used to characterise the microstructures of the weld nugget, the heat affected zone (HAZ), thermo-mechanical affected zone (TMAZ) and the base materials. The results show that FSR can be used the joining of dissimilar Al 6013 alloy and X5CrNi18-10 stainless steel. Seven different zones of the microstructure in the welding are reported as follows: (1) parent stainless steel, (2) HAZ in the stainless steel at advancing side of weld, (3) TMAZ in the stainless steel at advancing side of weld, (4) weld nugget, (5) TMAZ in the Al alloy at retreating side of weld, (6) HAZ in the Al alloy at retreating side of weld and (7) parent Al alloy. A good correlation between the hardness distribution and the welding zones are observed. Fatigue properties of Al 6013-T4/X5CrNi18-10 stainless steel joints were found to be approximately 30% lower than that of the Al 6013-T6 alloy base metal.

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جوشکاری لیزر CP Ti به فولاد زنگ‌نزن با شکل‌های ضربان زمانی مختلف

Laser welding of CP Ti to stainless steel with

different temporal pulse shapes

جوشکاری لیزر CP Ti به فولاد زنگ‌نزن با شکل‌های ضربان زمانی مختلف

ABSTRACT

CP Ti and stainless steel sheets were laser welded by using a pulsed wave Nd:YAG laser welding system. The effect of pulse profiles used in laser welding was studied by investigating weld appearance, weld geometry, microstructure, hardness variation, joint strength and failure mode of welds. Weld quality was strongly affected by the temporal pulse profile adopted in laser welding. In comparison with the use of a normal rectangular pulse profile, stronger welds with a better homogeneity and a complex fracture mode were achieved by using a ramp-down pulse profile. This quality enhancement was contributed from the less degree of intermixing between two welding materials in melting pools.


 

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