Influence of the Surface Structure on the Anode Boundary of High Current Moving Arcs in Atmosphere

Abstract: In this study the influence of the surface structure on the anode boundary of high intensity arcs in atmosphere is investigated. It was found that the surface structure of an anode has a significant influence on the anode fall voltage, which we claim can be caused by field enhancements. The tested anode material is copper. In order to produce different field enhancing surface structures induced by micro peaks, the samples are sandblasted with different grain sizes. For the determination of the field a new meth… Show more

“…The time-varying electromagnetic field induced by the current loop, including the electrodes and arc column, is calculated in this paper. Therefore, compared with most of the previous studies [5][6][7][8][9][10][11][12][13], the item…”

“…Ander et al [4,5] and Zhang et al [6] calculated the composition and thermodynamic properties of ablated vapors of Cu, PMMA, PA6-6, PETP, POM and PE. In addition, the modeling of the plasma-sheath boundary region and the influence of the surface structure on arc voltage were studied [7,8]. A sheath with a voltage-current density characteristic was proposed to represent the near-anode and near-cathode voltage, and also, the formation process of a new arc root on a splitter plate is described by it [9].…”

Convection effect on an arc plasma evolution process in a two parallel contact system

“…The time-varying electromagnetic field induced by the current loop, including the electrodes and arc column, is calculated in this paper. Therefore, compared with most of the previous studies [5][6][7][8][9][10][11][12][13], the item…”

“…Ander et al [4,5] and Zhang et al [6] calculated the composition and thermodynamic properties of ablated vapors of Cu, PMMA, PA6-6, PETP, POM and PE. In addition, the modeling of the plasma-sheath boundary region and the influence of the surface structure on arc voltage were studied [7,8]. A sheath with a voltage-current density characteristic was proposed to represent the near-anode and near-cathode voltage, and also, the formation process of a new arc root on a splitter plate is described by it [9].…”

Convection effect on an arc plasma evolution process in a two parallel contact system

Investigation on Arc Asynchronous Characteristics of the Double Bridge-Type Contacts in DC Relays