Abstract
Accident-tolerant fuel concepts have been developed recently in diverse research programs. Recent research has shown clear advantages of Cr-coated Zr cladding over bare cladding tubes regarding oxidation behavior under the design basis loss-of-coolant accident condition. However, limited data are available about the hydriding behavior of the Cr coating. For that purpose, Cr-coated Zricaloy-4 tubes were tested to investigate the effects of hydriding, oxidation, and postquench ductility behavior on coated Zr cladding. A high-power impulse magnetron sputtering (HiPIMS) process was used to produce a high-density coating on the Zircaloy-4 tube surface. Coated and uncoated Zircaloy-4 tube specimens underwent one-sided hydriding in a tube furnace filled with pure hydrogen gas at 425 °C. The tubing specimen ends were sealed with Swagelok plugs before the hydriding runs. For uncoated specimens, H analysis of the hydrided specimens indicated that the H content increased as the test time and initial pressure increased. However, almost no change was observed for the coated specimens that were hydrided under the same test conditions. After one-sided hydriding, the hydrided coated and uncoated specimens were exposed to steam at high temperatures for two-sided oxidation studies to simulate accident conditions. The coated specimens showed a slower oxidation: oxygen pickup was 50% lower than the uncoated specimens tested under the same conditions. Ring compression testing was performed to evaluate the embrittlement behavior of the Cr-coated specimens after hydriding and oxidation. The results indicated that the HiPIMS coating provides excellent protection from hydriding and oxidation at high temperatures.
Original language | English |
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Article number | 1998 |
Journal | Metals |
Volume | 12 |
Issue number | 12 |
DOIs | |
State | Published - Dec 2022 |
Funding
This research was funded by United States Department of Energy, grant number DE-AC05-00OR22725. This work was sponsored by DOE-NE Advanced Fuel Campaign (AFC). We would like to express our appreciation to Caitlin Duggan for her help on metallographic mount preparation and examinations. We would like thank M. Ridley and B. Garrison for providing their comments in the manuscript.
Funders | Funder number |
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U.S. Department of Energy | DE-AC05-00OR22725 |
Office of Nuclear Energy |
Keywords
- Cr-coating
- LOCA
- Zircaloy-4
- accident-tolerant fuel
- ductility
- hydriding
- mechanical property
- oxidation