Anomalously High Conductivity of Deformed Metals at the Positive Temperatures

Gennady A. Markov; Vladimir N. Malyshev

doi:10.4236/wjcmp.2012.22015

World Journal of Condensed Matter Physics > Vol.2 No.2, May 2012

Anomalously High Conductivity of Deformed Metals at the Positive Temperatures

Gennady A. Markov, Vladimir N. Malyshev
Mechanical Engineering Department, Gubkin Russian State University of Oil and Gas, Moscow, Russia.
Technologies of Markov, Ltd., Novosibirsk, Russia.
DOI: 10.4236/wjcmp.2012.22015 PDF HTML 3,691 Downloads 6,157 Views Citations

Abstract

The description of experimentally observed phenomenon of abnormally high electrical conductivity—"superconductivity" (SC) at the room and higher temperatures is represented. The effect was observed in metallic monospirals of small radius curvature with high density and regular distribution of dislocations. Transition into state of SC has been observed experimentally in the range from –50 up to 3000°C at the density of transmitting current up to 2·10⁹ A/cm². The experimental data confirming the watched phenomenon are represented. The explanations of this phenomenon are being proposed in the framework of the dislocation model.

Keywords

Metallic Monospirals; Dislocation Density; The Anomalously High Conductivity in Metals-Superconductivity; Room and other Positive Temperatures; The Velocity of Current Density Growth

Share and Cite:

G. Markov and V. Malyshev, "Anomalously High Conductivity of Deformed Metals at the Positive Temperatures," World Journal of Condensed Matter Physics, Vol. 2 No. 2, 2012, pp. 85-90. doi: 10.4236/wjcmp.2012.22015.

Conflicts of Interest

The authors declare no conflicts of interest.

References

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[2]	Y. A. Khon, G. A. Markov and N. V. Melnikova, “Anomaly High Electrical Conductivity of Deformed Metals for High Electric Current Density,” Proceedings of International Conference of Role of Mechanics for Development of Science and Technology, Beijing, 13-16 June 2000, pp. 639-640.
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[4]	V. L. Ginzburg and D. A. Kirzhnic, “Problem of High-Temperature Superconductivity,” Nauka, Moscow, 1977, p. 400.
[5]	G. A. Markov, “Method of Converting Metal Conductor into Superconducting State,” Patent No. 2233349 RU, 2002.
[6]	G. А. Markov, “Method of Creation Abnormally Conductivity,” Patent No. 1826744 RU, 2009.
[7]	G. А. Markov, “Method of Creation Abnormally Conductivity,” Patent No. 2061084 RU, 2010.
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[9]	Zh. Friedel, “Dislocations,” Mir, Moscow, 1967.

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