Impact of Electrode Rotation on Aluminum GMAW Bead Shape

IF 2.2 3区材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING

Welding Journal Pub Date : 2023-06-01 DOI:10.29391/2023.102.010

Jim Hansen, D. Harwig

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引用次数: 0

Abstract

Aluminum gas metal arc welding (GMAW) uses inert shielding gas to minimize weld pool oxidation and reduce susceptibility to porosity and incomplete fusion defects. For aluminum shipbuilding, naval welding requirements highly recommend the use of helium-argon mixtures or pure helium shielding gas to provide a broader heat field and better weld toe fusion. Pure argon shielding gas can be used but has been susceptible to incomplete fusion and porosity defects, where argon’s lower thermal conductivity promotes a narrower arc heat field and shallow weld fusion depth. Using helium is a concern because it is a finite resource that costs approximately five times more than argon. The rotating electrode pulsed GMAW process was investigated to improve argon shielding fusion characteristics and reduce helium usage. Argon-shielded bead-on-plate tests were used to evaluate the relationship between ER5183 electrode rotation parameters and arc power on constant deposit area bead shape. These tests were compared to stringer beads (no oscillation) that were made with argon, helium, and helium-argon shielding gases. Electrode rotation improved underbead fusion depth width and toe fusion. With preferred rotation parameters, the bead width and incomplete fusion at weld toes were equivalent to helium-based welds. For weld reinforcement, electrode rotation promoted a nonsymmetric profile with deposit bias on the bead side, where rotation direction was aligned with travel direction. The bead-side deposit bias is an advantage based on preliminary horizontal V-groove welding procedures using ceramic backing. Electrode rotation can offset the effects of gravity, promoting a smoother bead and fusion profile.

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电极旋转对铝GMAW焊珠形状的影响

铝气体保护金属极电弧焊（GMAW）使用惰性保护气体，最大限度地减少熔池氧化，降低气孔和不完全熔合缺陷的易感性。对于铝制造船，海军焊接要求强烈建议使用氦-氩混合物或纯氦保护气体，以提供更宽的热场和更好的焊趾融合。可以使用纯氩气保护气体，但容易出现不完全熔合和气孔缺陷，其中氩气较低的热导率促进了较窄的电弧热场和较浅的焊接熔合深度。使用氦气是一个令人担忧的问题，因为氦气是一种有限的资源，其成本大约是氩气的五倍。研究了旋转电极脉冲GMAW工艺，以改善氩气屏蔽熔化特性并减少氦气的使用。采用氩气保护珠板试验，评价了ER5183电极旋转参数与恒沉积区珠形电弧功率之间的关系。这些试验与用氩气、氦气和氦气-氩气保护气体制成的桁条珠（无振荡）进行了比较。电极旋转改善了焊趾下熔深宽度和焊趾熔深。在优选的旋转参数下，焊趾处的焊道宽度和不完全熔合与氦基焊缝相当。对于焊缝补强，电极旋转促进了非对称轮廓，在焊道侧具有沉积偏压，其中旋转方向与行进方向对齐。基于使用陶瓷背衬的初步水平V形槽焊接程序，焊道侧沉积偏置是一个优势。电极旋转可以抵消重力的影响，促进珠粒和熔合轮廓的平滑。

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

Welding Journal 工程技术-冶金工程

CiteScore

3.00

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： The Welding Journal has been published continually since 1922 — an unmatched link to all issues and advancements concerning metal fabrication and construction. Each month the Welding Journal delivers news of the welding and metal fabricating industry. Stay informed on the latest products, trends, technology and events via in-depth articles, full-color photos and illustrations, and timely, cost-saving advice. Also featured are articles and supplements on related activities, such as testing and inspection, maintenance and repair, design, training, personal safety, and brazing and soldering.