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Materials Science and Technology Division, The Development of Reversible Beading Fatigue Tester and its Application to High Burn-Up Spent Nuclear Fuel Integrity Study Under Normal Transportation Vibration.

机译：材料科学与技术部，可逆成珠疲劳试验机的发展及其在常规运输振动下高燃烧乏燃料完整性研究中的应用。

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For high burn-up spent nuclear fuel (SNF), it is expected that the spent fuel cladding will have a high population of microcracks and hydrides, including macro-hydrides and micro-hydrides. This will reduce the stress intensity required to advance the crack growth. The linking of these microcracks during vibration loading also reduces the fatigue threshold/incubation period significantly, accelerating fatigue failure. In addition to the damages in cladding, the microstructure of comprising fuel pellets and interfaces of fuel rod have changed dramatically after the high burn-up process. These modifications have a direct impact on the structural integrity and vibration response of SNF rods in transportation. As a result of that, the vibration has been included as one of mandatory testing conditions for the structural evaluation of package that is used in transporting spent nuclear fuel by US NRC (Nuclear Regulation Commission) in 10 CFR SC71.71. Currently, no testing system is available to test the spent nuclear fuel and evaluate the performance of fuel rod during the spent fuel transportation. It is the aim of this research project to develop a system that can appropriately test the response of high burn-up SNF rod in a simulated loading condition.

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Wang, J. J.; Wang, H.; Bevard, B.;
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年度 2014
页码 1-90
总页数 90
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Spent fuels; Bending; Burnup; Cladding; Crack propagation; Fatigue; Fuel rods; Hydrides; Pellets; Transportation; Vibration;

机译：乏燃料;弯曲;燃烧;熔覆;裂纹扩展;疲劳;燃料棒;氢化物;颗粒;运输;振动;

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2. Application of ion beams in materials science of radioactive waste forms: focus on the performance of spent nuclear fuel [J] . Frederico Garrido, Lech Nowicki, Lionel Thome Nuclear Instruments & Methods in Physics Research. B, Beam Interactions with Materials and Atoms . 2005,第1a2期

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3. Preferential removal of Sm by evaporation from Nd-Sm mixture and its application in direct burn-up determination of spent nuclear fuel [J] . Sajimol R., Bera S., Nalini S., Journal of Radioanalytical and Nuclear Chemistry: An International Journal Dealing with All Aspects and Applications of Nuclear Chemistry . 2016,第2期

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4. REVERSIBLE BENDING FATIGUE TESTING SYSTEM DESIGN CONCEPTS FOR SPENT FUEL VIBRATION INTEGRITY STUDY [C] . Hao Jiang, Jy-An John Wang, Hong Wang ASME Pressure Vessels and Piping conference . 2014

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5. Development of Materials for Advanced Nuclear Fuel Cycle Applications [D] . Scott, Spencer M. 2017

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6. The Impact of Interface Bonding Efficiency on High Burn-up Spent Fuel Vibration Integrity during Normal Transportation [O] . Jy-An John Wang, Hao Jiang, Hong Wang 2013

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Materials Science and Technology Division, The Development of Reversible Beading Fatigue Tester and its Application to High Burn-Up Spent Nuclear Fuel Integrity Study Under Normal Transportation Vibration.

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