Suntari Suntari, H. Purwanto, S. M. B. Respati, S. Sugiarto, Z. Abidin
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引用次数: 1
摘要
本研究评估了应用于客车车身结构的异种金属焊接的宏观组织、微观组织、硬度和抗拉强度。该工艺包括通过气体保护焊(GMAW)连接尺寸为80 x 40 x 3.2 mm的中空不锈钢和镀锌钢。电流在90、100和110A下变化,同时使用直径为0.8和1.0mm的ER70S-6电极。结果表明,焊条直径和焊接电流会影响覆盖面积、熔深和硬度。此外,增加了宽面铁素体相的形成,并检测到焊接区的粗晶界。还观察到,电极直径和焊接电流的增加(表明热量的增加)降低了固化和冷却的速率。发现所研究的所有样品的平均抗拉强度都低于基底金属的值。因此,建议进一步研究以提高抗拉强度。
Effect of Electrode Diameter and Current on Dissimilar Metal Welding (Stainless Steel - Galvanized Steel) in Bus Body Construction: Microstructure and Properties Evaluation
This study evaluates the macrostructure, microstructure, hardness, and tensile strength in dissimilar metal welding applied to bus body construction. The process involved joining hollow stainless steel and galvanized steel at the dimensions of 80 x 40 x 3.2 mm through Gas Metal Arc Welding (GMAW). The current was varied at 90, 100, and 110 A while ER70S-6 electrodes with diameters of 0.8 and 1.0 mm were used. The results showed that electrode diameter and welding current affect the capping area, penetration depth, and hardness. Moreover, the formation of the widmasatten ferrite phase was increased and the coarse grain boundaries in the weld zone were detected. It was also observed that an increase in the diameter of the electrode and the welding current which indicates an increment in the heat reduced the rate of solidification and cooling. The average tensile strength for all the samples investigated was found to be lower than the value for the base metal. Therefore, further research is recommended to improve the tensile strength.
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