Abstract
The results of studying the level of charge separation between the core and sheath in cables with mineral insulation and nickel and stainless-steel conductors are presented. The cables were irradiated in a BARS-6 pulsed reactor with dose rates of 3 × 103 and 4 × 103 Gy/s at temperatures of 270–650 K. A mechanism for elucidating the complex temperature dependence of the level of temperature-induced charge separation is proposed.
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REFERENCES
Shikama, T., Yasuda, K., and Yamamoto, S., et al., J. Nucl. Mater., 1999, vols. 271-272, p. 560.
Bender, S.E., Chernov, V.M., Demenkov, P.V., et al., Fusion Eng. Des., 2001, vols. 56-57, p. 911.
Bender, S.E., Chernov, V.M., Demenkov, P.V., et al., Plasma Devices Oper., 2003, vol. 11, no. 3, p. 185.
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Bender, S.E., Demenkov, P.V., Plaksin, O.A. et al. Effect of the Dose Rate and Temperature on Radiation-Induced Charge Separation in Cables with Mineral Insulation under Pulsed Reactor Irradiation. Instruments and Experimental Techniques 47, 163–165 (2004). https://doi.org/10.1023/B:INET.0000025194.02195.7d
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DOI: https://doi.org/10.1023/B:INET.0000025194.02195.7d