Conclusions
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1.
For the purpose of simulating three-dimensional potential fields the TNISGÉI produced and tested out an electrically conducting plastic whose electrical uniformity was ascertained by an integrator used for testing by means of the electrohydrodynamic-analogies method.
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2.
The integrator was used for testing over 100 electrically conducting plastic plates each of which had an area of 200 cm2 and one of them an area of 3000 cm2 and resistivities of 5 to 2500 Ω· cm.
Literature cited
N. I. Druzhinin, Method of Electrohydrodynamic Analogies and Its Application in Studying Filtration [in Russian], GÉI, Moscow-Leningrad (1956).
S. P. Kolosov, I. A. Ostryakov, and V. A. Smirnov, Inzhenerno-fizicheskii zhurnal,5, No. 9 (1962).
V. E. Gul' (editor), in Coll.: Electrically Conducting Polymer Materials, Their Properties and Application [in Russian], TsBTI, Moscow (1961).
B. I. Sazhin, Electrical Conductivity of Polymers, G. P. Mikhailov (editor) [in Russian], Goskhimizdat, Moscow-Leningrad (1964).
M. I. Kurdiani and M. I. Topchiashvili, “Investigations of a new electrically conducting material made on the basis of polymers for solving filtration problems by the electrohydrodynamic-analogies method,” Izvestiya TNISGÉEI,16, Izd. Énergiya (1965).
M. I. Topchiashvili, M. I. Kurdiani, É. A. Dahavakhishvili, and L. A. Maisuradze, Plasticheskie massy, No. 11 (54) (1966).
M. I. Topchiashvili, Author's Certificate No. 199238, Byull, izobr., No. 15 (1967).
Additional information
Translated from Izmeritel'naya Tekhnika, No. 2, p. 96, February, 1968.
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Kurdiani, M.I., Topchiashvili, M.I. Evaluating the electrical uniformity of a conducting plastic. Meas Tech 11, 283–284 (1968). https://doi.org/10.1007/BF00980963
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DOI: https://doi.org/10.1007/BF00980963