NSUF 18-1593: Understand the Fission Products Behavior and Irradiation Effects in UCO Fuel Kernels of Irradiated AGR-1 and AGR-2 TRISO Fuel Particles by Using Atom Probe Tomography
TRISO-coated particle fuel is a center piece in developing the high temperature gas reactor, and the post-irradiation characterization is highly desired for improving the knowledge in understanding the fuel performance at normal and accident conditions and for providing qualification data and pathway in further improving the fuel fabrication process. In this proposal, we plan to characterize the irradiated AGR-1 and AGR-2 fuel kernels by using Atom Probe Tomography (ATP). The proposal APT work is aimed to complement our previously acquired knowledge using the FEI Titan with ChemiSTEM, particularly for quantifying the light element diffusion and segregation. More specifically, the APT tips will be prepared onto the sharpened tungsten wires of the half TEM grid (100 mesh), and this will allow for both TEM characterization and APT data acquisition. The gained knowledges will be used for understanding the correlations between the fuel performance and the fabrication process as part of efforts on the fuel qualification. The project PI is fully committed to meet the NSUF required research schedule and deliverable expectations.
Additional Info
| Field | Value |
|---|---|
| Abstract | TRISO-coated particle fuel is a center piece in developing the high temperature gas reactor, and the post-irradiation characterization is highly desired for improving the knowledge in understanding the fuel performance at normal and accident conditions and for providing qualification data and pathway in further improving the fuel fabrication process. In this proposal, we plan to characterize the irradiated AGR-1 and AGR-2 fuel kernels by using Atom Probe Tomography (ATP). The proposal APT work is aimed to complement our previously acquired knowledge using the FEI Titan with ChemiSTEM, particularly for quantifying the light element diffusion and segregation. More specifically, the APT tips will be prepared onto the sharpened tungsten wires of the half TEM grid (100 mesh), and this will allow for both TEM characterization and APT data acquisition. The gained knowledges will be used for understanding the correlations between the fuel performance and the fabrication process as part of efforts on the fuel qualification. The project PI is fully committed to meet the NSUF required research schedule and deliverable expectations. |
| Award Announced Date | 2018-09-17T12:09:02.693 |
| Awarded Institution | None |
| Facility | None |
| Facility Tech Lead | Alina Zackrone, Yaqiao Wu |
| Irradiation Facility | None |
| PI | Zhenyu Fu |
| PI Email | [email protected] |
| Project Type | RTE |
| RTE Number | 1593 |