Evolution of Advanced Process Control in GMAW: Innovations, Implications, and Application

IF 2.2 3区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING Welding Journal Pub Date : 2024-03-01 DOI:10.29391/2024.103.015
John Norrish
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Abstract

The first half of this paper reviews the significant body of work that has been devoted to understanding the fundamentals of the basic GMAW process and the use of this knowledge to develop and enhance process performance. Some of the important background studies devoted to metal transfer mechanisms are reviewed, and the tools developed to model the process and define the critical control variables for GMAW are discussed. The limitations in process performance, such as unstable transfer in low current globular, spray, and short circuit transfer modes and the perceived risk of lack of fusion in short circuit transfer, are considered. These limitations have been mitigated to some extent by process optimization based on the process models developed as well as improvements in welding consumables. Despite the limitations, it is suggested that satisfactory operation could be achieved with simple equipment and a limited number of essential control variables. Early attempts to rectify the limitations are described, but it is argued that these early innovations were restricted by the limited operating envelopes and capabilities of the original power supplies. The radical development of advanced electronic power control and its effect on extending the process operating modes is described, as are the developments in dynamic waveform control. The introduction of synergic control to enable the more complex control variables to be accommodated is also discussed. The effect of waveform control and synergic program constraints on welding procedure management is analyzed, and the advantages of improved process monitoring are reviewed. Future developments in process monitoring and control based on artificial intelligence are introduced, and a possible development to improve synergic program flexibility is suggested. Finally, the type of applications that fully utilize this ‘intelligent’ GMAW are illustrated.
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先进工艺控制在 GMAW 中的发展:创新、影响和应用
本文前半部分回顾了为了解基本 GMAW 工艺的基本原理以及利用这些知识开发和提高工艺性能所做的大量工作。本文回顾了一些关于金属转移机制的重要背景研究,并讨论了为建立工艺模型和定义 GMAW 关键控制变量而开发的工具。考虑了工艺性能的局限性,如在低电流球状、喷射和短路传输模式下传输不稳定,以及在短路传输中缺乏熔合的预期风险。根据开发的工艺模型进行工艺优化以及改进焊接耗材,在一定程度上缓解了这些局限性。尽管存在这些局限性,但建议使用简单的设备和数量有限的基本控制变量就可以实现令人满意的操作。文中描述了早期为纠正这些局限性所做的尝试,但认为这些早期创新受到了原始电源有限的操作范围和能力的限制。文中介绍了先进电子电源控制的重大发展及其对扩展工艺操作模式的影响,以及动态波形控制的发展。此外,还讨论了为适应更复杂的控制变量而引入的协同控制。分析了波形控制和协同程序约束对焊接程序管理的影响,并回顾了改进过程监控的优势。介绍了基于人工智能的过程监控的未来发展,并提出了提高协同程序灵活性的可能发展。最后,对充分利用这种 "智能 "GMAW 的应用类型进行了说明。
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
Welding Journal 工程技术-冶金工程
CiteScore
3.00
自引率
0.00%
发文量
23
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.
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