A computational model of gas tungsten arc welding of stainless steel: the importance of considering the different metal vapours simultaneously

“…Additionally, results clarified that, especially, chromium ions reached the arc centre and the electrode tip as time passed [7,8]. The transport mechanism of metal vapour inside an arc plasma was clarified using a two-dimensional axisymmetric computational model with a combined diffusion coefficient method developed by Park et al [9,10]. The combined diffusion coefficient method incorporates diffusion caused by four driving forces: gradient of the composition, temperature, pressure, and the applied electric field [11].…”

Section: Introductionmentioning

confidence: 99%

Electrode contamination caused by metal vapour transport during tungsten inert gas welding

Tanaka

Shigeta

Komen

et al. 2021

Science and Technology of Welding and Joining

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Tungsten electrode contamination caused by metal vapour from a base metal during a tungsten inert gas welding was investigated. The metal ions transported from the weld pool surface were deposited on the tungsten electrode surface during welding. The tungsten fraction of the electrode surface layer was decreased because the deposited metal vapour diffused inside the tungsten electrode. The melting point of the electrode surface layer was lowered, decreasing to the electrode operating temperature. Results show that the electrode melted and deformed. This electrode contamination was promoted when a larger amount of metal ions was transported to the electrode surface.

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“…The reactive force F J is directed normally to the evaporation surface, and the velocity and wt. of the vapor have a radial distribution similar to the Gaussian distribution of the electromagnetic pressure force F EP [52]. The reactive force F J in the anode affects the droplet transfer, so it should be taken into account when calculating the sum of forces, in our opinion, according to the modified equation:…”

Section: Introductionmentioning

confidence: 99%

Thermophysical Properties of Electric Arc Plasma and the Wire Melting Effect with Lanthanum and Sulfur Fluorides Addition in Wire Arc Additive Manufacturing

Parshin

Mayr

2021

Metals

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Achieving a higher quality in wire arc additive manufacturing (WAAM) is a result of the development of welding metallurgy, the development of filler wires, and the control of the thermophysical properties of the electric arc. In this paper, the authors developed composite wires for WAAM with a Ni-LaF3, Ni-LaB6 coating. The addition of LaF3, LaB6, and SF6 increases specific heat, thermal conductivity, enthalpy, and degree of plasma ionization, which leads to the increase in the transfer of heat from the arc plasma to the wire and to the change in the balance of forces during wire melting. The increase in the Lorentz electromagnetic force and the decrease in the surface tension force made it possible to reduce the droplet diameter and the number of short circuits during wire melting. The change in the thermophysical properties of the plasma and droplet transfer with the addition of LaF3, LaB6, and SF6 made it possible to increase the welding current, penetration depth, accuracy of the geometric dimensions of products in WAAM, reduce the wall thickness of products, and refine the microstructure of the weld metal using G3Si1, 316L, AlMg5Mn1Ti, and CuCr0.7 wires.

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A computational model of gas tungsten arc welding of stainless steel: the importance of considering the different metal vapours simultaneously

Cited by 28 publications

References 47 publications

Numerical Prediction of Influence of Gas Species on Gas Convective Pattern of Short Arc Lamp

Numerical Prediction of Influence of Gas Species on Gas Convective Pattern of Short Arc Lamp

Electrode contamination caused by metal vapour transport during tungsten inert gas welding

Thermophysical Properties of Electric Arc Plasma and the Wire Melting Effect with Lanthanum and Sulfur Fluorides Addition in Wire Arc Additive Manufacturing

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