Nuclear Engineering and Technology (Dec 2013)

COMPARATIVE ANALYSIS OF STRUCTURAL CHANGES IN U-MO DISPERSED FUEL OF FULL-SIZE FUEL ELEMENTS AND MINI-RODS IRRADIATED IN THE MIR REACTOR

  • ALEKSEY. L. IZHUTOV,
  • VALERIY. V. IAKOVLEV,
  • ANDREY. E. NOVOSELOV,
  • VLADIMIR. A. STARKOV,
  • ALEKSEY. A. SHELDYAKOV,
  • VALERIY. YU. SHISHIN,
  • VLADIMIR. M. KOSENKOV,
  • ALEKSANDR. V. VATULIN,
  • IRINA. V. DOBRIKOVA,
  • VLADIMIR. B. SUPRUN,
  • GENNADIY. V. KULAKOV

DOI
https://doi.org/10.5516/NET.07.2013.716
Journal volume & issue
Vol. 45, no. 7
pp. 859 – 870

Abstract

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The paper summarizes the irradiation test and post-irradiation examination (PIE) data for the U-Mo low-enriched fuel that was irradiated in the MIR reactor under the RERTR Program. The PIE data were analyzed for both full-size fuel rods and mini-rods with atomized powder dispersed in Al matrix as well as with additions of 2%, 5% and 13% of silicon in the matrix and ZrN protective coating on the fuel particles. The full-size fuel rods were irradiated up to an average burnup of ∼ 60%235U; the mini-rods were irradiated to an average burnup of ∼ 85%235U. The presented data show a significant increase of the void fraction in the U-Mo alloy as the U-235 burnup rises from ∼ 40% up to ∼ 85%. The effect of irradiation test conditions and U-235 burnup were analyzed with regard to the formation of an interaction layer between the matrix and fuel particles as well as generation of porosity in the U-Mo alloy. Shown here are changes in distribution of U fission products as the U-235 burnup increases from ∼ 40% up to ∼ 85%.

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