Litcius/Paper detail

Predicted Anode Arc Attachment by LTE (Local Thermodynamic Equilibrium) and 2-T (Two-Temperature) Arc Models in a Cascaded-Anode DC Plasma Spray Torch

Rodion Zhukovskii, Christophe Chazelas, Vincent Rat, A. Vardelle, Ron Molz

2021Journal of Thermal Spray Technology24 citationsDOIOpen Access PDF

Abstract

In DC plasma spray torches, anode erosion is a common concern. It mainly depends on the heat flux brought by the arc and on the dimensions and residence time of the arc attachment to a given location on the anode wall. The latter depend, to a great extent, on the attachment mode of the arc on the anode wall. This paper compares the anode arc attachment modes predicted by an LTE (Local Thermodynamic Equilibrium) and 2-T (two-temperature) arc models that include the electrodes in the computational domain. It deals with a commercial cascaded-anode plasma torch operated at high current (500 A) and low gas flow rate (60 NLPM of argon). It shows that the LTE model predicted a constricted anode arc attachment that moves on the anode ring, while the 2-T model predicted a diffuse and steady arc attachment. The comparison between the predicted and measured arc voltage showed that the 2-T prediction is closer to the actual voltage. Also, the post-mortem observation of a new anode ring of the actual plasma torch operated under the same conditions for a short time confirmed a diffuse arc attachment on a new anode.

Topics & Concepts

AnodeMaterials scienceArc (geometry)PlasmaPlasma torchThermodynamic equilibriumTorchThermal sprayingPlasma arc weldingThermodynamicsMetallurgyElectrodeComposite materialMechanical engineeringPhysical chemistryChemistryEngineeringCoatingPhysicsQuantum mechanicsWeldingVacuum and Plasma ArcsMetal and Thin Film MechanicsDiamond and Carbon-based Materials Research