Characteristics of radiation porosity formed upon irradiation in a BN-600 reactor in the fuel-element cans of cold-deformed steel EK-164 (06Kh16N20M2G2BTFR)-ID c.d.

被引:0
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作者
I. A. Portnykh
A. V. Kozlov
V. L. Panchenko
N. M. Mitrofanova
机构
[1] Federal State Unitary Enterprise,Institute of Reactor Engineering
[2] Bochvar All-Russia Research Institute of Inorganic Materials,undefined
来源
The Physics of Metals and Metallography | 2012年 / 113卷
关键词
austenitic steel; neutron irradiation; reactor BN-600; rate of dose accumulation; swelling; characteristics of porosity;
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摘要
At present, it is the austenitic cold-deformed steel EK164 (06Kh16N20M2G2BTFR)-ID that is considered as a promising material for the achievement of a maximum damage (no less than 110 dpa) and maximum burnup (≥15%). In this work, we have determined the characteristics of porosity formed upon irradiation in a BN-600 reactor to the maximum damaging dose of 77 dpa in the materials of fuel-element cans made of cold-deformed steel EK164-ID c.d. A comparison has been made with analogous characteristics obtained earlier using the standard material, i.e., the cold-deformed steel ChS68 (06Kh16N 15M2G2TFR)-ID c.d.
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页码:520 / 531
页数:11
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  • [1] Characteristics of radiation porosity formed upon irradiation in a BN-600 reactor in the fuel-element cans of cold-deformed steel EK-164 (06Kh16N20M2G2BTFR)-ID c.d.
    Portnykh, I. A.
    Kozlov, A. V.
    Panchenko, V. L.
    Mitrofanova, N. M.
    PHYSICS OF METALS AND METALLOGRAPHY, 2012, 113 (05): : 520 - 531
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