The electric field and voltage of dc tungsten-inert gas arcs and their role in the bidirectional plasma-electrode interaction

Electrical measurements and numerical modelling of dc tungsten-inert gas arcs are carried out in order to determine the electric field and the voltage, and to study their importance to the plasma-electrode interaction. The configuration under consideration is very typical for tungsten-inert gas weld...

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Bibliographic Details
Published in:Journal of physics. D, Applied physics Applied physics, 2019-08, Vol.52 (32), p.324006
Main Authors: Siewert, E, Baeva, M, Uhrlandt, D
Format: Article
Language:English
Subjects:
bidirectional plasma-electrode interaction
dc arc plasma
experiment
nonequilibrium modelling
tungsten-inert-gas
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Summary:Electrical measurements and numerical modelling of dc tungsten-inert gas arcs are carried out in order to determine the electric field and the voltage, and to study their importance to the plasma-electrode interaction. The configuration under consideration is very typical for tungsten-inert gas welding processes and includes a conically shaped cathode made of doped tungsten and atmospheric pressure argon as a shielding gas. The studies analyze the effects of the inter-electrode distance and the electric current over wide ranges of variation-currents from below 10 A up to 200 A, and distances from 20 mm down to 2 mm in the modelling and to the short-circuit in the experiment. The comparison of the experimentally obtained and the computed current-voltage and arc length-voltage characteristics clearly prove the predictive capability of the advanced non-equilibrium model of the arc and the electrodes. Moreover, the self-consistent model yields the structure of the electric potential and the electric field and is capable of describing the peculiarities of the plasma-electrode interaction.
ISSN:0022-3727
1361-6463
DOI:10.1088/1361-6463/ab2325