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Zhurnal Tekhnicheskoi Fiziki, 2017 Volume 87, Issue 6, Pages 921–929 (Mi jtf6214)

Electrophysics, electron and ion beams, physics of accelerators

Comparative simulation of switching regimes of magnetic explosion generators by copper and aluminum magnetodynamic current breakers taking into account elastoplastic properties of materials

A. A. Bazanov, A. V. Ivanovsky, A. I. Panov, A. V. Samodolov, S. S. Sokolov, V. Sh. Shaidullin

All-Russian Research Institute of Experimental Physics", Sarov, Nizhny Novgorod region

Abstract: We report on the results of the computer simulation of the operation of magnetodynamic break switches used as the second stage of current pulse formation in magnetic explosion generators. The simulation was carried out under the conditions when the magnetic field energy density on the surface of the switching conductor as a function of the current through it was close to but still did not exceed the critical value typical of the beginning of electric explosion. In the computational model, we used the parameters of experimentally tested sample of a coil magnetic explosion generator that can store energy of up to 2.7 MJ in the inductive storage circuit and equipped with a primary explosion stage of the current pulse formation. It has been shown that the choice of the switching conductor material, as well as its elastoplastic properties, considerably affects the breaker speed. Comparative results of computer simulation for copper and aluminum have been considered.

Received: 16.02.2016
Revised: 11.07.2016

DOI: 10.21883/JTF.2017.06.44518.1760


 English version:
Technical Physics, 2017, 62:6, 938–947

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