Irradiation-Induced Creep and Re-Sintering of Large Grain Sized UO.sub.2 Fuel

A study of irradiation-induced creep and re-sintering of large grain sized fuel of the VVER type was carried out using the developed procedures and experimental facilities under irradiation with fission rates of 1.0 x 10.sup.13 and 1.2 x 10.sup.13 1/(cm.sup.3 s). Strain diagrams generated during cre...

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Veröffentlicht in:	Physics of atomic nuclei 2022-12, Vol.85 (Suppl 2), p.S59
Hauptverfasser:	Mikheev, E. N, Fedotov, A. V, Rysev, N. M, Novikov, V. V, Bakhteev, O. A, Izhutov, A. L, Burukin, A. V
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Sprache:	eng
Schlagworte:	Nuclear energy Radiation Sintering Uranium
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container_title	Physics of atomic nuclei
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creator	Mikheev, E. N Fedotov, A. V Rysev, N. M Novikov, V. V Bakhteev, O. A Izhutov, A. L Burukin, A. V
description	A study of irradiation-induced creep and re-sintering of large grain sized fuel of the VVER type was carried out using the developed procedures and experimental facilities under irradiation with fission rates of 1.0 x 10.sup.13 and 1.2 x 10.sup.13 1/(cm.sup.3 s). Strain diagrams generated during creep studies within the strain range of 10-40 MPa were obtained at effective sample temperatures of 943, 1020, 1200 and 1301 K. It was demonstrated that strain is controlled by irradiation-induced creep within the temperature range of up to 1123 K. This was confirmed by its linear dependency on stress. At higher temperatures, the effect of radiation-thermal creep grows, and its contribution to the total strain increases with the growth of stress. Creep rate values obtained at temperatures of 1200 and 1301 K are higher than those of uranium dioxide with standard grain size. Strain diagram produced during the studies of re-sintering of an 88.32 mm high fuel column was obtained at the effective sample temperature of 960 K. In terms of height, re-sintering amounted to 0.070-0.095%. It was demonstrated that irradiation-induced re-sintering did not affect the irradiation-induced creep rate within the experimental accuracy range.
doi_str_mv	10.1134/S1063778822140095
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N ; Fedotov, A. V ; Rysev, N. M ; Novikov, V. V ; Bakhteev, O. A ; Izhutov, A. L ; Burukin, A. V</creator><creatorcontrib>Mikheev, E. N ; Fedotov, A. V ; Rysev, N. M ; Novikov, V. V ; Bakhteev, O. A ; Izhutov, A. L ; Burukin, A. V</creatorcontrib><description>A study of irradiation-induced creep and re-sintering of large grain sized fuel of the VVER type was carried out using the developed procedures and experimental facilities under irradiation with fission rates of 1.0 x 10.sup.13 and 1.2 x 10.sup.13 1/(cm.sup.3 s). Strain diagrams generated during creep studies within the strain range of 10-40 MPa were obtained at effective sample temperatures of 943, 1020, 1200 and 1301 K. It was demonstrated that strain is controlled by irradiation-induced creep within the temperature range of up to 1123 K. This was confirmed by its linear dependency on stress. At higher temperatures, the effect of radiation-thermal creep grows, and its contribution to the total strain increases with the growth of stress. Creep rate values obtained at temperatures of 1200 and 1301 K are higher than those of uranium dioxide with standard grain size. Strain diagram produced during the studies of re-sintering of an 88.32 mm high fuel column was obtained at the effective sample temperature of 960 K. In terms of height, re-sintering amounted to 0.070-0.095%. 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At higher temperatures, the effect of radiation-thermal creep grows, and its contribution to the total strain increases with the growth of stress. Creep rate values obtained at temperatures of 1200 and 1301 K are higher than those of uranium dioxide with standard grain size. Strain diagram produced during the studies of re-sintering of an 88.32 mm high fuel column was obtained at the effective sample temperature of 960 K. In terms of height, re-sintering amounted to 0.070-0.095%. 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At higher temperatures, the effect of radiation-thermal creep grows, and its contribution to the total strain increases with the growth of stress. Creep rate values obtained at temperatures of 1200 and 1301 K are higher than those of uranium dioxide with standard grain size. Strain diagram produced during the studies of re-sintering of an 88.32 mm high fuel column was obtained at the effective sample temperature of 960 K. In terms of height, re-sintering amounted to 0.070-0.095%. It was demonstrated that irradiation-induced re-sintering did not affect the irradiation-induced creep rate within the experimental accuracy range.</abstract><pub>Springer</pub><doi>10.1134/S1063778822140095</doi><tpages>1</tpages></addata></record>
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title	Irradiation-Induced Creep and Re-Sintering of Large Grain Sized UO.sub.2 Fuel
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