J. D. Cobine scite author profile

J. D. Cobine

5Publications

133Citation Statements Received

0Citation Statements Given

How they've been cited

376

125

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Affiliations

State University of New York, General Electric (United States), Harvard University

Publications

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Analysis of Electrode Phenomena in the High-Current Arc

Cobine

Burger

1955

174

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An analysis is made of the phenomena at the electrodes of a high-current short-time arc. It is shown that the input power density to the anode spot is in the range 5×104 to 1×106 watts/cm2. To a first-order approximation, all this power can be carried off by evaporation. Power conducted into the metal and lost by radiation is negligible in the probable operating range. For most materials, the anode spot is probably considerably above the boiling temperature. The process of evaporation holds the spot temperature constant at a value such that the input power and evaporation power are equal. Experimental data indicate that for any given metal the anode spot temperature is that for which the evaporation power density is at least 3×105 watts/cm2. As an example, for copper the theoretical limits of temperature are 2490 to 3040°K, while experimental data indicate a temperature of 2920°K. Other metals considered are: Ag, Al, C, Fe, Mo, Sn, Ti, W, Zn, Zr. It is also shown that for the maximum power input that can be expected at the cathode, the thermionic emission current density is very small compared to the observed values of current density.

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Gaseous-conduction phenomena and their application in electrical engineering

Cobine

1950

Electr. Eng.

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The Electronic Torch and Related High Frequency Phenomena

Cobine

Wilbur

1951

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This paper presents the design of a high frequency electronic torch operating at 1000 mc/sec, and some of the physical characteristics of the gaseous discharge produced. The flame produced by polyatomic gases is capable of melting many refractory materials due to the heat of association of the dissociated molecules. Monatomic gases produce little heat. Probe measurements indicate an electron temperature of the order of 105 deg K. The gas temperature near the outer edge of the flame appears to be of the order of 3000°K.

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Recovery Strength Measurements in Arcs from Atmospheric Pressure to Vacuum

Farrall

Cobine

1967

IEEE Trans. on Power Apparatus and Syst.

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Current Density of the Arc Cathode Spot

Cobine

Gallagher

1948

Phys. Rev.

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J. D. Cobine

Analysis of Electrode Phenomena in the High-Current Arc

Gaseous-conduction phenomena and their application in electrical engineering

The Electronic Torch and Related High Frequency Phenomena

Recovery Strength Measurements in Arcs from Atmospheric Pressure to Vacuum

Current Density of the Arc Cathode Spot

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