Fission fragment damage to crystal structures

Berman, B.M.; Bleiberg, M.L.; Yeniscavich, W.

doi:10.1016/0022-3115(60)90040-4

Cited by 54 publications

(14 citation statements)

References 7 publications

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“…Furthermore, U 3 O 8 at temperatures below 400 K is almost completely destroyed by radiation damage already at doses of 10 17 -10 18 fissions cm À3 [10,11]. Since thermal healing takes place only at temperatures above 600 K [12], one should remark that a fuel oxidation event occurring in-pile at low temperature may lead to more complex oxidation and fission product release conditions than those examined here.…”

Section: Oxidation Of Irradiated Samplesmentioning

confidence: 98%

Fission product release in high-burn-up UO2 oxidized to U3O8

Colle

Hiernaut

Papaioannou

et al. 2006

Journal of Nuclear Materials

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Section: Oxidation Of Irradiated Samplesmentioning

confidence: 98%

Fission product release in high-burn-up UO2 oxidized to U3O8

Colle

Hiernaut

Papaioannou

et al. 2006

Journal of Nuclear Materials

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“…It is known that the neutron resistance of corundum is inferior to that of spinel [5], and corundum becomes amorphous by fission damage. Berman et al reported that the fuel specimen irradiated at low temperature (about 560 K) showed a large swelling (about 30%) due to amorphization of the corundum phase [4]. In this work, the swelling of the corundum-based fuels was substantial but not so large as that of spinel.…”

Section: Swellingmentioning

confidence: 82%

“…We have shown that the YSZ composite containing about 50 mol% MgAl 2 O 4 and 15 mol% UO 2 showed higher thermal conductivity than UO 2 , in the temperature range from room temperature to 1700 K [3]. However, it is known that the corundum matrix fuels show larger irradiation swelling [4]. On the other hand, the resistance of spinel to neutron irradiation is high [5], but that to fission fragment damage might not be sufficient.…”

Section: Introductionmentioning

confidence: 95%

Fuel performance evaluation of rock-like oxide fuels

Nitani

Kuramoto

Nakano

et al. 2008

Journal of Nuclear Materials

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“…Berman et al (10) reported that the fuel specimen irradiated at low temperature (about 560 K) showed a large swelling (about 30 %) due to amorphization of the corundum phase. The confirmation of swelling behavior of corundum under the irradiation condition of around 1000 K was an important objective of this irradiation test.…”

Section: Fission Gas Releasementioning

confidence: 99%

Study of Rock-like Oxide Fuels under Irradiation

Nitani

Kuramoto

Nakano

et al. 2008

JPES

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To evaluate the irradiation behavior of the rock-like oxide fuel, irradiation experiments were carried out. Three fuels were prepared; a single phase fuel of yttria-stabilized zirconia containing UO 2 (U-YSZ) and two types of particledispersed fuels of U-YSZ particles in spinel or corundum matrix. U-YSZ particle sizes were about 100 -200 µm. These fuels were irradiated in Japan Research Reactor No.3 for about 280 days. The burnups were about 11% FIMA. The fission gas release rate (FGR) was determined by puncture test and gas analysis. Corundum-based fuel showed extremely high FGR (88%). The irradiation behavior of spinel-based fuels in conditions avoiding the spinel decomposition was superior to corundum-based fuels, in view of their retention of FP gases. The temperature of U-YSZ single-phase fuel pellets was highest among the fuels, because of its low thermal conductivity. Nevertheless the U-YSZ single-phase fuel showed very low FGR (5%). Microstructure analyses of irradiated fuel pellets were carried out by ceramography and electron probe micro-analysis (EPMA). The restructuring of fuel pellet was not observed in the spinel-based fuel irradiated below 1400 K. Significant appearance changes were not also observed for corundum-based fuel, in the range of about 800 K to 1900 K, where the irradiation tests were carried out.

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Fission fragment damage to crystal structures

Cited by 54 publications

References 7 publications

Fission product release in high-burn-up UO2 oxidized to U3O8

Fission product release in high-burn-up UO2 oxidized to U3O8

Fuel performance evaluation of rock-like oxide fuels

Study of Rock-like Oxide Fuels under Irradiation

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