1. Study on Performance of Coated Particle Dispersed Fuel Pellet Prepared by Spark Plasma Sintering
- Author
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LIU Wei;SHAO Zongyi;LIU Wentao;MENG Ying;FENG Shuaishuai;CAI Zhenfang
- Subjects
accident tolerant fuel ,coated particle dispersed fuel ,spark plasma sintering ,Nuclear engineering. Atomic power ,TK9001-9401 ,Nuclear and particle physics. Atomic energy. Radioactivity ,QC770-798 - Abstract
Accident tolerant fuel can improve the safety of nuclear reactor core and strengthen the ability of nuclear reactor to withstand serious accidents. Coated particle dispersed fuel has become a hot research topic in accident tolerant fuel in recent years, due to its high thermal conductivity and good radiation resistance stability. Coated particle dispersed fuel consists of threedimensional isotropic coated particles as the fuel phase and silicon carbide as the matrix phase, adopting the fuel form of coated particle dispersed in the silicon carbide matrix. However, due to the low selfdiffusion rate of SiC, it is difficult to achieve high densification by solid phase sintering, which is only controlled by diffusion. The existing sintering process mainly involves adding sintering aids or generating liquid glass phase to assist in the sintering of SiC powder. Spark plasma sintering (SPS) process can activate powder particles and promote sintering, and has been widely used in nuclear ceramic sintering in recent years. This article used SPS to prepare coated particle dispersed fuel pellets, and studied the influence of sintering process parameters on the density of the coated particle dispersed fuel pellets, such as the amount of sintering additive addition, maximum sintering temperature, maximum sintering pressure, and holding time. It is found that the best process parameters for SPS sintering of coated particle dispersed fuel pellet is 7% of sintering additive addition, holding 15 minutes at 1 850 ℃ and 45 MPa. Under such process parameter, the relative density of pellet can reach 98.5% of theoretical density. In addition, the sintering mechanism of coated particle dispersed fuel was studied and it is found that the sintering of coated particle dispersed fuel can be divided into five stages. Phase detection, metallographic detection and microstructure characterization analysis of the coated particle dispersed fuel pellets were carried out. The XRD examination results indicate that after sintering, the coated particle dispersed fuel pellet is pure β phase, which indicate that SPS rapid sintering can better control the phase transition. The metallographic examination results indicate that there is no obvious contact between TRISO particles in the coated particle dispersed fuel pellet obtained under the optimal process conditions. The SEM examination results show that the overall integrity of TRISO particles is good, indicating that the structure of TRISO particles dose not break during the sintering process. In the thermal shock test, there are no penetrating micro-cracks on the surface of the fuel pellet after a thermal shock, which maintain good integrity.
- Published
- 2023
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