1996
DOI: 10.1007/bf02414813
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Formation and development of a surface layer in the BBER-440 fuel core

Abstract: For the thermophysical calculation of a fuel element, it is necessary to know the radial distribution of energy release in the fuel core, which influences the temperature field in the field core [1], and the consequent radial distribution of burnup in the fuel core. It is especially important to know the radial distribution of fuel burnup for average (over the transverse crosssectional area of the fuel element) burnup exceeding 45-50 MW.day/kg, when it starts to exceed 60-75 MW.day/kg in a thin peripheral laye… Show more

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Cited by 6 publications
(5 citation statements)
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“…For example, MIE-2017 area with modified microstructure, so-called rim-zone appears in the outer layer of the fuel rod of thermal-neutron reactors. Its formation is associated with high concentration of fission products [5][6][7]. Therefore, application of constant concentrations over the whole fuel rod can lead to distortion of the simulation results.…”
Section: Algorithms and Methodsmentioning
confidence: 99%
“…For example, MIE-2017 area with modified microstructure, so-called rim-zone appears in the outer layer of the fuel rod of thermal-neutron reactors. Its formation is associated with high concentration of fission products [5][6][7]. Therefore, application of constant concentrations over the whole fuel rod can lead to distortion of the simulation results.…”
Section: Algorithms and Methodsmentioning
confidence: 99%
“…For example, area with modified microstructure, so-called rim-zone appeares in the outer layer of the fuel rod of thermal-neutron reactors. Its formation is associated with high concentration of fission products [6][7][8]. Therefore, application of constant concentrations over the whole fuel rod can lead to distortion of the simulation results.…”
Section: Equation Of Isotope Kineticsmentioning
confidence: 99%
“…One such process gives rise to an edge zone with an easily distinguishable altered microstructure on the periphery of the fuel pellets. The structure of the edge zone is characterized by the presence of many fine gas bubbles, vanishing of the initial grain structure, and formation of new, much smaller subgrains (<1 µm) [1,2].It has been found experimentally that an edge zone starts to form in uranium dioxide fuel pellets in thermal reactors at burnup higher than 45-50 MW·days/kg. This layer is 100-200 µm thick and is characterized by much higher burnup than the main part of the fuel pellet.…”
mentioning
confidence: 99%
“…One such process gives rise to an edge zone with an easily distinguishable altered microstructure on the periphery of the fuel pellets. The structure of the edge zone is characterized by the presence of many fine gas bubbles, vanishing of the initial grain structure, and formation of new, much smaller subgrains (<1 µm) [1,2].…”
mentioning
confidence: 99%