Journal ArticleDOI
Anode Phenomena in Vacuum and Atmospheric Pressure Arcs
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In this paper, the authors summarized recent experimental data related to anode phenomena in both vacuum and atmospheric pressure arcs, and particular emphasis was placed on the effect of plasma flow from the cathode.Abstract:
This paper summarizes recent experimental data related to anode phenomena in both vacuum and atmospheric pressure arcs. Currents in the range 10A to 3OkA are discussed, and particular emphasis is placed on the effect of plasma flow from the cathode. For vacuum arcs this plasma flow is the directed motion of metal ions from the cathode spots. These ions reduce the anode voltage drop, and maintain a diffuse anode termination. At atmospheric pressure the ion flow is impeded by gas-atom collisions. However, a plasma flow towards the anode can result from magnetic pinch forces at the constricted cathode termination. In the absence of plasma flow, the anode termination constricts to a vigorously evaporating anode spot. For a typical non-refractory electrode such as copper, the spot operates at a temperature close to the boiling point irrespective of the gas pressure. The spot temperature is dictated by the balance between electrical input power and evaporative losses. These anode phenomena are discussed in relation to vacuum switchgear, arc welding and arc furnaces.read more
Citations
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Journal ArticleDOI
A Review of Anode Phenomena in Vacuum Arcs
TL;DR: In this article, the authors discuss arc modes at the anode, anode temperature measurments, anodes ions, transitions of the arc into various modes (principally the anodes-spot mode), and theoretical explanations of anode phenomena.
Journal ArticleDOI
Vacuum Arc Anode Phenomena
TL;DR: In this paper, the authors briefly review anode phenomena in vacuum arcs, specially experimental work, and discuss the two most common anode modes in a vacuum arc: low current mode where the anode is basically passive, acting only as a collector of particles emitted from the cathode, and a high current mode with a fully developed anode spot.
Journal ArticleDOI
The Vacuum Interrupter Contact
TL;DR: A survey of electric contact design for vacuum interrupters is presented in this article, where the major emphasis is placed upon those characteristics of contact design that have led to practical vacuum intercutters.
Journal ArticleDOI
Anode Modes in Vacuum Arcs: Update
TL;DR: In this paper, the seven different anode discharge modes which can occur in a vacuum arc are discussed, including diffuse arc (low current), footpoint and plume (intermediate current), plus anode spot (two types), and intense arc (high current).
References
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Journal ArticleDOI
Analysis of the Electrode Products Emitted by dc Arcs in a Vacuum Ambient
William D. Davis,H. Craig Miller +1 more
TL;DR: In this article, the authors examined radially by dc arcs drawn in a vacuum ambient on cathodes of several elements, as well as the axial (through-anode) ion flux from a copper cathode.
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Erosion and ionization in the cathode spot regions of vacuum arcs
TL;DR: In this article, the authors investigated the ion currents to the metal walls surrounding each of these cathode materials and found that the dependence of the wall ion current on the electrode spacing and anode geometry is consistent with an arc model which assumes predominant vapor ionization in the cathode regions, with subsequent isotropic free flight motion from these regions.
Journal ArticleDOI
Cathode spot erosion and ionization phenomena in the transition from vacuum to atmospheric pressure arcs
TL;DR: In this paper, the authors investigated the cathode properties of arcs for ambient gas pressures of 10−3−725 Torr and showed that at pressures approaching atmospheric, the measured erosion rate is reduced from that in vacuum by about an order of magnitude.
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Analysis of Electrode Phenomena in the High-Current Arc
J. D. Cobine,E. E. Burger +1 more
TL;DR: In this article, the authors made an analysis of the phenomena at the electrodes of a high-current short-time arc and showed that the input power density to the anode spot is in the range 5×104 to 1×106 watts/cm2.
Journal ArticleDOI
Triggered vacuum gaps
TL;DR: In this article, it is shown that the gap can be broken in less than one-tenth microsecond by first producing a glow discharge that is rapidly transformed into a metal-vapor arc.