Analysis of tensile strength and microstructure on GTAW- Aluminum 6061 welding results

Asian Journal of Engineering and Applied Technology Pub Date : 2022-09-08 DOI:10.21831/jeatech.v3i2.53149

Ardani Ahsanul Fakhri, Basyirun Basyirun, Ahmad Fikrie

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Abstract

The process of joining aluminum metal requires a special welding method. The use of GTAW welding is a suitable method for joining aluminum plates. This research is intended to analyze the tensile strength and microstructure of the GTAW Aluminum 6061 welding with various currents. The research method used in this research is experimental research. Welding current variations used in this study were 100A, 115A, and 130A, then tested using a destructive test, tensile test. The data analysis used in this study is descriptive analysis, where the data obtained are averaged and then described and concluded. The results of microstructure research on GTAW welding show that changes in the microstructure are very visible in the HAZ area and the weld metal, the greater the heat input, the more spread the Mg2Si grains will be. Good structural dispersion only occurs at 130A current. This is different from the base metal which does not change the material structure at all. Based on the tensile test, the tensile stress value is 80.9 MPa at 100 A current, 84.9 MPa at 115A current variation, and the highest tensile strength is 86.7 MPa at 130A current. So, it can be concluded that the higher the current used, the better the microstructure and tensile strength produced.

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GTAW- al6061焊接结果的拉伸强度和显微组织分析

连接铝金属的过程需要一种特殊的焊接方法。采用GTAW焊接是一种比较合适的铝板连接方法。本研究旨在分析GTAW铝合金6061焊接在不同电流下的拉伸强度和显微组织。本研究采用的研究方法是实验研究。本研究中使用的焊接电流变化为100A、115A和130A，然后使用破坏性试验、拉伸试验进行测试。本研究使用的数据分析是描述性分析，即对获得的数据进行平均，然后进行描述和总结。GTAW焊接的显微组织研究结果表明，热影响区和焊缝金属的显微组织变化非常明显，热输入越大，Mg2Si晶粒分布越广。良好的结构色散只发生在130A电流下。这与根本不改变材料结构的母材不同。通过拉伸试验可知，在100 A电流下拉伸应力值为80.9 MPa，在115A电流变化时拉伸应力值为84.9 MPa，在130A电流下拉伸强度最高为86.7 MPa。由此可知，电流越大，合金的显微组织越好，抗拉强度越高。

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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Asian Journal of Engineering and Applied Technology

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