Arc Characteristics of Ultrasonic-Magnetic Coaxial Hybrid GTAW

Wenbo Du; Wenlong Li; Yue Li; Chao Chen

doi:10.3390/ma15228130

Arc Characteristics of Ultrasonic-Magnetic Coaxial Hybrid GTAW

Materials (Basel). 2022 Nov 16;15(22):8130. doi: 10.3390/ma15228130.

Authors

Wenbo Du¹, Wenlong Li^{1

2}, Yue Li³, Chao Chen²

Affiliations

¹ National Key Laboratory for Remanufacturing, Army Academy of Armored Forces, Beijing 100072, China.
² College of Mechanical and Electrical Engineering, Northeast Forestry University, Harbin 150040, China.
³ Beijing Institute of Radio Measurement, Beijing 100039, China.

Abstract

Ultrasonic-magnetic field coaxial hybrid GTAW(U-M-GTAW) is a new non-melting electrode welding method proposed by combining ultrasonic assisted GTAW(U-GTAW) and magnetic assisted GTAW(M-GTAW) on the regulation characteristics of the GTAW arc. U-M-GTAW introduces ultrasonic and magnetic field effects into GTAW to improve arc characteristics. The orthogonal experiment was designed to investigate the degree of influence of different process parameters on the arc. The degree of influence of ultrasonic power P, radiator height H, magnetic field current C_W, welding current C_W and tungsten electrode height H_T on ΔL₁ (degree of arc root diameter change), ΔL₂ (degree of maximum diameter change) and ΔS (degree of area change) were analyzed. In the parameter range, P has the greatest degree of influence on ΔL₁ and ΔL₂. As all process parameters increase, L₁ shows a tendency to decrease, indicating an increase in the compression of the arc root. ΔL₂ with the increase in P and C_W shows a trend of first decreasing and then increasing. ΔL₂ with the increase in H decreases, indicating that the acoustic radiation force increases, the arc energy increases, and the dark region decreases. The magnetic field current increases, the bottom of the arc expands, and the height of the tungsten electrode increases, the arc dispersion and thus the difference between the dark and luminous regions at the bottom increases, resulting in ΔL₂ with the increase in C_M and H_T increases. C_W has the greatest degree of influence on ΔS. ΔS decreases and then increases as P and H increase, which indicates that the force on acoustic radiation increases and then decreases in the range. An increase in the magnetic field current increases the rotation of the arc, leading to an increase in the arc area. An increase in welding current leads to an increase in arc energy, expansion of the arc morphology, and an increase in ΔS. The tungsten electrode height increases, the arc diverges, the dark region increases, the luminous area decreases, and ΔS increases. Finally, combined with the analysis of ultrasonic field and magnetic field theory, changes in process parameters will affect the force of the arc and thus the arc morphology. The U-M-GTAW arc under the action of acoustic radiation force, the plasma flow is shifted in the direction of the arc axis, and the arc contraction, under the action of magnetic field force to generate circumferential current, the arc undergoes periodic rotation, which improves GTAW arc characteristics.

Keywords: GTAW; arc characteristics; magnetic; orthogonal experiments; ultrasonic.

Grants and funding

This work was financially supported by the Fundamental Research Funds for the Central Universities through Grant No. 2572021BF02.