| Title |
Compacted and Sintered Microstructure Depending on Uranium Powder Size in Zr-U Metallic Fuel |
| Authors |
윤창근(Chang Gun Yun); 전현준(Hyun-joon Jun); 주정환(Jung Hwan Ju); 이호진(Ho Jin Lee); 이종탁(Chong-tak Lee); 김형래(Hyung Lae Kim) |
| DOI |
https://doi.org/10.3365/KJMM.2017.55.3.184 |
| ISSN |
1738-8228(ISSN), 2288-8241(eISSN) |
| Keywords |
powder size; powder processing; segregation; homogeneity; Zr-U |
| Abstract |
In case of the uranium (U) and zirconium (Zr) powders which have been utilized for the production of a metallic fuel in the various nuclear applications, the homogenous distribution of U powders in the Zr-U pellet has influenced significantly on the nuclear fuel performance. The inhomogeneity in a powder process was changed by various intricate factors, e.g. powder size, shape, distribution and so on. Particularly, the U inhomogeneity in the Zr-U pellets occurs by segregation derived from the great gaps of densities between Zr and U during compaction of the mixed powders. In this study, the relationship between powder size and homogeneity was investigated by using the different-sized U powders. The microstructure in Zr-U pellets reveals more homogeneity when the weight ration of Zr and U powders are close to 1. In addition, homogeneous pellets which were produced by fine U powders have higher density because the homogeneity affects the alloying reaction during sintering and the densification behavior of pore induced by powder size. (Received August 18, 2016; Accepted September 22, 2016) |