Induction assisted autogenous plasma arc welding of HSLA steel

IF 6.7 2区 材料科学 Q1 ENGINEERING, INDUSTRIAL
Sunil Kumar Biswal, Sukhomay Pal
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Abstract

In this work, a high frequency induction heating (HFIH) assisted plasma arc welding (IPAW) technique is proposed to weld 6 mm thick S690QL high strength low alloy steel plates in square butt joint configuration and without using any filler material. A 3D finite element based coupled electromagnetic-thermal analysis is carried out to ascertain the weld's thermal characteristics. Microstructure evolution and mechanical performance are investigated using scanning electron microscopy, electron back scattered diffraction, transmission electron microscopy, tensile test, Charpy impact test and micro hardness test. The results demonstrate that 15 s initial static heating using a co-directional current coil with magnetic flux concentrator predominantly improves the weld penetration by 48 % and joint efficiency reaches 90 % to the base plate strength. Microstructural study shows that the addition of HFIH promotes low angle grain boundaries (LAGB) with bainite ferrite and granular bainite micro-constituents in the fusion zone, which causes localised yielding and failure in this zone during tensile test. Further investigation reveals that the HFIH encourages the formation of BI-type bainite ferrite laths of 1.3–2.2 μm width, combined with slender martensite-austenite (M-A) island at the bainite ferrite lath boundaries. The results also reveal that the induction heating promotes the formation of M23C6 precipitates and B2 structured Cu-enrich nano precipitates in the fusion zone (FZ). The microhardness distribution indicates that the FZ and coarse grain heat affected zone are significantly reduced due to the assistance of the HFIH. The impact test result shows a lower energy absorption by the IPAW weldments due to dominance of the LAGB with unfavourable strain distribution.

Abstract Image

HSLA 钢的感应辅助自生等离子弧焊
本研究提出了一种高频感应加热(HFIH)辅助等离子弧焊(IPAW)技术,用于焊接 6 毫米厚的 S690QL 高强度低合金钢板,采用方形对接结构,不使用任何填充材料。为确定焊接的热特性,进行了基于三维有限元的电磁-热耦合分析。使用扫描电子显微镜、电子背散射衍射、透射电子显微镜、拉伸试验、夏比冲击试验和显微硬度试验对微观结构演变和机械性能进行了研究。结果表明,使用带磁通量集中器的同向电流线圈进行 15 秒初始静态加热,可将焊接渗透率提高 48%,接头效率达到 90%,从而提高了底板强度。微观结构研究表明,加入 HFIH 后,熔合区的低角度晶界 (LAGB) 与贝氏体铁素体和粒状贝氏体微观成分结合,从而在拉伸试验中导致该区域局部屈服和失效。进一步研究发现,HFIH 促进了宽度为 1.3-2.2 μm 的 BI 型贝氏体铁素体板条的形成,并在贝氏体铁素体板条边界形成了细长的马氏体-奥氏体(M-A)岛。结果还显示,感应加热促进了熔合区(FZ)中 M23C6 沉淀和 B2 结构富铜纳米沉淀的形成。显微硬度分布表明,在 HFIH 的帮助下,FZ 和粗晶粒热影响区明显缩小。冲击试验结果表明,由于 LAGB 占主导地位且应变分布不利,IPAW 焊接件的能量吸收能力较低。
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来源期刊
Journal of Materials Processing Technology
Journal of Materials Processing Technology 工程技术-材料科学:综合
CiteScore
12.60
自引率
4.80%
发文量
403
审稿时长
29 days
期刊介绍: The Journal of Materials Processing Technology covers the processing techniques used in manufacturing components from metals and other materials. The journal aims to publish full research papers of original, significant and rigorous work and so to contribute to increased production efficiency and improved component performance. Areas of interest to the journal include: • Casting, forming and machining • Additive processing and joining technologies • The evolution of material properties under the specific conditions met in manufacturing processes • Surface engineering when it relates specifically to a manufacturing process • Design and behavior of equipment and tools.
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