The arc stability and droplet transfer characteristics of an alternating current heterogeneous twin-wire indirect arc welding

IF 6.7 2区 材料科学 Q1 ENGINEERING, INDUSTRIAL
Liwei Wang , Yunfei Gu , Mingming Quan , Aiping Liu , Chaofeng Wu , Xiao Yang , Zhimin Liang , Dianlong Wang , Ying Liu , Zhenzhen Peng , Huan Yan , Balaji Narayanaswamy
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Abstract

The characteristics of a new alternating current (AC) heterogeneous twin-wire indirect arc welding (TWIAW) process were comprehensively studied. A mathematical model of non-uniform melting was designed to evaluate the control stability of a twin-wire indirect arc and also in guiding the wire feeding speeds. The effect of AC frequency, current amperage, and current waveform on the stabilities of indirect arc and droplet transfer characteristics were investigated. The results show, the arc was relatively stable within an AC frequency range of 2.5–10 Hz. Droplet transition diagram and force analyses have been established to study the arc characteristics and droplet transfer mechanisms, respectively. Current waveforms with peak and base currents were investigated to study the stability of droplet transfers. Current waveform with two peak values and one base value improved the stability of the arc. When the peak current was 130 A/10 ms and the base current was 110 A/40 ms, the arc shape and droplet transfer were the most stable, along with a continuous and smooth weld seam. Through theoretical analysis and experiments, the rules of heterogeneous double-wire AC indirect arc current voltage and droplet transfer were clarified for the first time, and a waveform adjustment method that can control droplet transfer was designed. The heat input and the amount of cladding metal can be controlled by adjusting the current waveform. It has stable droplet transfer and extremely high cladding efficiency, which is of great significance to the indirect arc process in the heterogeneous multi-wire arc additive manufacturing of high-strength aluminum alloys.

交流异质双丝间接电弧焊的电弧稳定性和熔滴传递特性
对新型交流异质双丝间接电弧焊(TWIAW)工艺的特性进行了全面研究。设计了非均匀熔化的数学模型,以评估双丝间接电弧的控制稳定性,并指导送丝速度。研究了交流频率、电流安培数和电流波形对间接电弧稳定性和熔滴传输特性的影响。结果表明,电弧在 2.5-10 Hz 的交流频率范围内相对稳定。建立了液滴过渡图和力分析,分别用于研究电弧特性和液滴转移机制。研究了峰值电流和基值电流的电流波形,以研究液滴转移的稳定性。具有两个峰值和一个基值的电流波形提高了电弧的稳定性。当峰值电流为 130 A/10 ms,基值电流为 110 A/40 ms 时,电弧形状和熔滴转移最为稳定,焊缝连续光滑。通过理论分析和实验,首次阐明了异质双丝交流间接电弧电流电压与熔滴传递的规律,并设计了一种能控制熔滴传递的波形调节方法。通过调节电流波形可以控制热输入和熔覆金属量。它具有稳定的液滴传输和极高的熔覆效率,对高强度铝合金异质多丝电弧增材制造中的间接电弧工艺具有重要意义。
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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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