L. A. Glikman scite author profile

L. A. Glikman

5Publications

16Citation Statements Received

36Citation Statements Given

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Affiliations

Tel Aviv University, Scientific Research Institute of Precision Mechanics (Russia), Institute of Petroleum Chemistry

Publications

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W–C Electrode Erosion in a Pulsed Arc Submerged in Liquid

Parkansky

Glikman

Beilis

et al. 2007

Plasma Chem Plasma Process

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Electrode erosion was studied in pulsed arcs ignited between two electrodes comprised of 99.99% C (graphite) and 99.5% W submerged in deionized water or analytical (99.8%) ethanol. In the both cases the erosion rate increased proportionally to the pulse energy, and the total electrode erosion per unit energy was inversely proportional to the discharge pulse duration. Fifteen and sixty-lF discharge capacitors were used for formation of the pulses in water. It was obtained that, respectively (a) erosion of the tungsten anode (W a ) was by factors of 5-6 and *10 greater than that of the carbon (C c ) cathode; (b) erosion of the carbon anode (C a ) was by a factor of 1.34 greater and by a factor of 2.65 less than that of the tungsten cathode (W c ); (c) the total erosion rate of both electrodes (anode and cathode) per unit pulse energy for the W a -C c pair was greater by factors of 11 and 12.5 than that for the W c -C a pair.

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Growth of ZnO nanorods by air annealing of ZnO films with an applied electric field

Parkansky

Shalev

Alterkop

et al. 2006

Surface and Coatings Technology

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Change in the elastic properties of iron-carbon alloys under the action of hydrogen

1978

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W-C Synthesis in a Pulsed Arc Submerged in Liquid

Parkansky

Glikman

Beilis

et al. 2008

Plasma Chem Plasma Process

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Pulsed arc production of tungsten carbide (W-C) powders in deionized water and analytical (99.8%) ethanol was studied. The arc was ignited between two submerged electrodes: one of 99.99% graphite (C) and the other of 99.5% W. The pulse energy and duration were in the ranges of 7.7-192 mJ and 25-65 ls, respectively. The WC 1-x production rate was maximized by configuring the C electrode as the anode and the W electrode as the cathode. The rate was greater in ethanol than in water. The rate of producing *10 nm particles in ethanol was two orders of magnitude greater when using W anode -C cathode configuration, than with the opposite polarity.

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The modulus of normal elasticity of cementite

Glikman¹,

Kartashov²,

Rubashkina³

et al. 1975

Strength Mater

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L. A. Glikman

W–C Electrode Erosion in a Pulsed Arc Submerged in Liquid

Growth of ZnO nanorods by air annealing of ZnO films with an applied electric field

Change in the elastic properties of iron-carbon alloys under the action of hydrogen

W-C Synthesis in a Pulsed Arc Submerged in Liquid

The modulus of normal elasticity of cementite

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