Electric cell voltage at etching and deposition of metals under an inhomogeneous constant magnetic field

The self-organized electric cell voltage of the physical circuit is calculated at etching and deposition of metals at the surface of a magnetized ferromagnetic electrode in an electrolyte without passing an external electrical current. This self-organized voltage arises due to the inhomogeneous dist...

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Bibliographic Details
Published in:arXiv.org 2015-01
Main Authors: O Yu Gorobets, Gorobets, Yu I, Rospotniuk, V P, Legenkiy, Yu A
Format: Article
Language:English
Subjects:
Deposition
Electric cells
Electric potential
Electrodes
Electrolytes
Etching
Ferromagnetism
Lorentz force
Magnetic fields
Magnetostatic fields
Mathematical analysis
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Summary:The self-organized electric cell voltage of the physical circuit is calculated at etching and deposition of metals at the surface of a magnetized ferromagnetic electrode in an electrolyte without passing an external electrical current. This self-organized voltage arises due to the inhomogeneous distribution of concentration of the effectively dia- or paramagnetic cluster components of an electrolyte at the surface of a ferromagnetic electrode under the effect of inhomogeneous magnetostatic fields. The current density and Lorentz force are calculated in an electrolyte in the vicinity of the magnetized steel ball-shaped electrode. The Lorentz force causes the rotation of an electrolyte around the direction of an external magnetic field.
ISSN:2331-8422
DOI:10.48550/arxiv.1501.02563