Abstract
elements(FA) and structural materials resistance to irradiation damage implemented during tests in reactor IVG-1 [1] and at measurements of properties after irradiation.
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Derjavko, I. I., Perepelkin, I. G., Pivovarov, O. C., et al. (2001). Express techniques for research of the irradiated rod carbide fuels. The Bulletin of the National Nuclear Centre of Republic Kazakhstan, 4, 88–93.
Chernetsov, M. V., Sernjaev, G. A., & Scherbaks, E. N. (1999). Influence of irradiation on sizes and physical-mechanical properties of the carbide fuel. Nuclear Power in Space. Nuclear Rocket Engines. Podolsk. part 2. p. 259.
B\(\pi \)acoB, H. M.,& Zaznoba, V. A., (1999). The incubatory swelling period of fuel materials SIA “LUCH”, Podolsk, Russia. Nuclear Power in Space. Podolsk. 1999. Reports. part 2, pp. 489–491.
Radiation damage of refractory compounds. (1979). Under M. S. Ogorodnikova. J.I. Rogovogo’.s edition. Atomizdat. 160 p. (in Russian).
Jackson, H. F.& Le, W. E. (2012). Properties and characteristics of ZrC (pp. 339–372). Amesterdam: Elsiver.
Was, G. S. (2007). Fundamentals of radiation materials science. Metals and alloys (p. 827). Heidelberg: Springer.
Derjavko, I. I., Zelenskij, D. I., Lanin, A. G. et al. (1999). Reactor working off of the rod carbide fuels of NRER (pp. 539–543). 5th International Conference “Nuclear Power in Space”, Podolsk.
Derjavko, I. I., Egorov, V. S., Lanin, A. G., et al. (2001). Radiographic research of the residual Stresses in the rod carbide fuel elements. The Bulletin of the National Nuclear Centre of Republic Kazakhstan, 14, 95.
Deryavko, I. I., Chernyadev, V. V., Gorin, N. V., et al. (2010). Characteristics of identifying the fuel rods of NRE. Vestnik NNC RK. edn, 4(44), 95–105.
Andrievsky, R. A., Vlasov, K. P., Lanin, A. G., et al. (1978). Influence of irradiation on physical-mechanical properties of zirconium and niobium. Non-organic Materials, 1(4), 680–683.
Prijmak S.V., Olejnikov P.P., Taubin M. L., Features of metrological temperature measurement by thermoelectric temperature transducers in the conditions of intensive reactor irradiation. The Third Branch Conference “Nuclear Power in Space" 1993 (pp. 327–333). Atomic energy 67(3), 221–222.
Vlasov, K. P., Kolesnikov, S. A.,& Virgil’ev, J. M. (1993). Radiation durability of carbon materials (pp. 805–816). 3rd Branch Conference “Nuclear Power in Space. Nuclear Rocket Engines.”, Podolsk.
Pinchuk P.G., Bjakov H., Barabash AA. et al. Researches of radiation swelling in the system zirconium - hydrogen. Atomic energy. 1977. Vol. 42. 1 I, pp. 16–19.
Andrievsky, R. A., Ja, M. V,& Savin, V. I. (1978). Study of the defect nature of transition metals hydrides. Inorganic Materials, 14(9), 1664.
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Lanin, A. (2013). Radiation Resistance of the HRA Elements . In: Nuclear Rocket Engine Reactor. Springer Series in Materials Science, vol 170. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-32430-7_5
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DOI: https://doi.org/10.1007/978-3-642-32430-7_5
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