Study of the Effect GMAW and SMAW Welding Combination with WAAM Method

Specta Pub Date : 2023-08-31 DOI:10.35718/specta.v7i2.938

J. Awali, Anis Hanifah, Muhammad Aditya Pratama, Fikan Mubarok Rohimsyah

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Abstract

The development of technology and science is multiplying, so it affects the industrial sector in Indonesia, namely the industry that manufactures machine elements, especially in the automotive sector, which commonly uses metal as raw material. The manufacturing sector's production in the automotive industry tends to increase annually. The need for metal as raw material is constantly increasing. The WAAM welding method be utilized as one of the innovations in the industrial world that potentially reduces the use of raw metal materials by replacing them with the results of the WAAM process. In this study, a combination of GMAW and SMAW welding using the WAAM method was carried out by adding material in layers and switching between the two types of welding. The welding process is carried out by varying the current (high, medium, and low). Then, a tensile test was carried out to determine the mechanical properties of the combination results. Based on the tensile test results, it is known that the high current variation gives the best results, the increasing current lead to an enhancement of the mechanical properties. Finally, using high currents will give the best result for application in the engineering and automotive sector.

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GMAW和SMAW结合WAAM焊接效果的研究

技术和科学的发展正在成倍增长，因此它影响了印度尼西亚的工业部门，即制造机械元件的行业，特别是在汽车部门，通常使用金属作为原材料。汽车制造业的产量每年都在增长。对作为原材料的金属的需求在不断增加。WAAM焊接方法可以作为工业领域的创新之一，通过用WAAM工艺的结果代替原材料，潜在地减少了原材料的使用。在本研究中，通过分层添加材料，并在两种焊接方式之间切换，采用WAAM方法进行了GMAW和SMAW的组合焊接。焊接过程是通过改变电流(高、中、低)来进行的。然后进行拉伸试验，确定复合材料的力学性能。根据拉伸试验结果可知，大电流变化得到最好的结果，电流的增加导致机械性能的增强。最后，使用大电流将为工程和汽车领域的应用提供最佳效果。

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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来源期刊

Specta

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0.00%

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审稿时长

5 weeks