不同厚度TBF钢板的电阻点焊性

Imren Ozturk Yilmaz, Abdullah Yasin Bilici, H. Aydın
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引用次数: 3

摘要

本文对不同厚度TBF钢板的可焊性进行了试验研究。TBF板的公称厚度分别为0.95和1.55毫米。用光学显微镜观察焊接区形成的裂纹。采用超声技术测定压痕深度。为了确定焊接试样的力学性能,对焊接试样进行了拉伸剪切试验。焊接电流和时间越长,熔核尺寸越大,压痕深度越大。熔核尺寸和压痕深度随焊接电流和焊接时间的增加几乎呈线性增长。热影响区液态金属脆化裂纹对TBF点焊具有很高的敏感性。与熔核区相比,焊缝外围区液态金属脆化裂纹更深、更宽。热输入越大,裂纹越容易产生,裂纹深度随热输入的增加几乎呈线性增加。试样的焊接强度受热影响区裂纹形成的影响。较低的焊接电流和焊接时间导致较高的拉伸剪切性能。在6 kA、20次循环下,获得了最高的拉伸剪切载荷(18.50 kN)和能量吸收(37.5 J)。焊缝呈现界面破坏模式。
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Resistance spot weldability of TBF steel sheets with dissimilar thickness
This paper presents an experimental study on weldability of TBF steel sheets with dissimilar thickness. Nominal thickness of TBF sheets were 0.95 and 1.55 mm. Optical microscope was used to observe the cracks formed in the weld zone. The indentation depths were determined by ultrasonic technique. Tensile shear tests were applied to the welded specimens in order to determine the mechanical properties. Higher weld current and time resulted in higher nugget size and indentation depth. This increase in nugget size and indentation depth with increasing of weld current and weld time was almost linearly. The liquid metal embrittlement crack sensitivity in the HAZ was very high on TBF spot welds. The liquid metal embrittlement cracks were much deeper and wider along the weld periphery regions compared to the nugget regions. These cracks were occurred easily with a higher heat input and the crack depth increased almost linearly with increasing of heat input. Weld strength of the specimens was governed by crack formation in the HAZ. Lower weld currents and weld times resulted in higher tensile shear properties. The highest tensile shear load (18.50 kN) and energy absorption (37.5 J) were achieved at 6 kA for 20 cycles. This weld exhibited interfacial failure mode.
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